Invited Talks & Abstracts of the Research Papers (Physical Sciences) accepted for Presentation
during the 89th Annual Session of NASI at NAARM, Hyderabad
(December 21-23, 2019)
THE NATIONAL ACADEMY OF SCIENCES, INDIA ----------------------------------------------------------------------------
5, Lajpatrai Road, Prayagraj - 211002, India
Scientific Session (Physical Sciences Section)
Invited Talks : NASI-Reliance Industries Platinum Jubilee Awardees
Other Invited Speakers Speaker
Prof. Ambarish Ghosh, Centre for Nano Science and Engineering (CeNSE),I ISc, Bangalore;
Speaker
Prof. R Vijayaraghavan, Associate Professor, Quantum Measurement and
Control Laboratory, Dept. of CondensedMatter Physics & Material Science,
Tata Institute of Fundamental Research, Mumbai
Speaker
Dr. Shantanu Bhattacharya, Professor; Manufacturing Science Lab,Department of Mechanical Engineering,Indian Institute of Technology, Kanpur Speaker
Dr. Sukumar Mishra, Professor, Department of Electrical Engineering,Indian Institute of Technology, New Delhi Speaker
Dr. Raja Shunmugam, Professor, Department of Chemical Sciences,Indian Institute of Science Education and Research Kolkata, Nadia
Author Index
Adhikari,Satrajit 9 Agarwal,Rekha Rani 25,41 Ahmad,Tokeer 31 Ahmad,Irshad 31
Ankesh, Rachit 44, 45
Ansari,J. A. 34,37
Asthana, Nidhi 7,30
Awasthi,Ashwary 33
Bansal,Ritvik 39
Baran,Chhavi 32,33
Baranwal, Kirti 35
Batra,Mridula 39
Bharti,AbhiSarika 32,33
Bhusri,Gitish 39
Bora,Jayanta 26
Butcher,R. J. 19 Chandel, S.S. 4 Chauhan,R.S. 15
Cheker,Rahul 3
Datt,B. 17
Deshmukh,V.B. 31
Deulkar ,Vinay 12
Dwivedi,H.P. 40
Dwivedi,Jaya 18
Dwivedi,Mrigank Mauli 7,30 Dwivedi,Sanjay 11 Gade,V.K. 31 Gautam,AlokSagar 20
Ghosh,Sandip 9
Goyal,Aashish 39
Gupta, G.S. 4, 17, 18
Gupta, H.D. 40 Gupta,A. 17
Gupta,Mahesh Kumar 36
Haque,Md. Alimul 16
Hoque,Raza Rafiqul 26 Husain,M 12 Jaiswar,Gautam 3 Javed, Saleem 5,38
Jyoti, Sushma 1 Kamat,Ajay Kumar 19
Katre,Prafull 10 Kaur,Arshdeep 39
Kaushal,Kritika 17 Kaushalendra,Kumar 17
Khan,Noor-ul H. 1
Krishna,Vijay 38 Krisnathya,Harshita 11
Kulkarni,Pramod 22 Kumar,Gaurav 8
Kumar, Kaushlendra 44
Kumar,Mukesh 34,37
Kumar,Sunil 12,26
Kumar,Vasu 10
Kumar,Vinod 43
Kumar, Ashish 16 Kumar, Devendra 42
Kumar, K.Suneel 43
Kumar,Jitendra 43 Kumar,Manoj 10
Kumar,Praveen 29
Kumar,Sanjeev 20
Kumari, Bibha 23 Kumhar,D. 19
Lal,Jaggi 21 Laxmi,Vijay 21
Mahajan,S. K. 27 Malhotra, Reetu 39 Malsaria, Renu 6,11
Malviya,Tulika 35,36
Marua,Minaxi S. 1
Meshram,Jyotsna S. 10 Mirzaa, Azar Ullah 3
Mishra,Piyush Kumar 34, 37
Mishra,Vivek 10
Misra,Jagadis Chandra 40 Mukherjee, R. 38 Mukherjee,Bijit 9
Mukherjee,Soumya 9
Namrata 24 Naskar,Koushik 9
Negi,Aayasha 34, 35
Negi,D. S. 35
Negi,Devendra Singh 34
Nitin,Navendu 37
Paithankar,K.S. 31
Palafox,M Alcolea 8
Pandey,Kamlesh 7,30
Pandey,A. K. 3 Pandey,Akanksha 3
Pandey,Jitendra K 37 Pandey,Ram Suresh 23
Patel,R. N. 6, 12, 19
Patel,S. K. 12, 19 Patel,Satish Kumar 19
Pathak,Anurag 10 Patidar, Raghavendra 6,11,41 Patwary,Pompy 11
Porwal, Akanksha 22
Prakash,Ravi 29
Rai,J. 15
Raj,Aman 20
Rama,Sanwala 1
Ramamurty,D. 18 Ranjan,Rakesh Kumar 20
Rao,D.Rama 18
Rao,Tentu Nageswara 43
Rastogi ,V.K. 8 Revathi, Prathipati 43
Roy, Diptarka 7
S.,Sreedevi 39
Sahoo,Tapas 9
Sairam,Pinisetti Swami 37
Sara,P. 18
Saraswati 42 Saroj,A. K. 37
Saroj,Abhishek Kumar 34
Satsangee, Soami P. 4
Shah,Adit 28 Sharma,Soni 9
Sharma, Sarita 7
Sharma,Renu 41
Sharma,Richa 4
Sharma,Sweta 32,33
Shehala 35
Shelke,U.N. 31
Shirsath,Nandkishor B. 10
Shukla,Ram S. 1,2 Shukla,Brajesh Kumar 38
Shukla,Praveena 40
Siddiqui,Weqar Ahmad 31
Sidiiqui, Nazia 5
Singh, Raj Pal 7 Singh, Rajeev Pratap 5 Singh, S.P. 8
Singh, Yogendra P. 15 Singh,Ajay Kumar 23 Singh,N. 15 Singh,N.K. 16 Singh,Pramod Kumar 24 Singh,R. B. 29 Singh,Rachana 4
Singh,Ram Tawakya 25 Singh,ShriNiwash 15
Singh,SurendraPratap 20
Singh,Vandana 35,36 Singh,Y. 19
Singh,Yogendra 6
Sinha, Ashwani Kumar 44, 45
Sinha, Chandra Kumar 1
Sinha,R.N. 20 Sinha, Rashmi 44 Soni, Pushpendra Singh 20 Srivastava, Vishnu 6,11 Srivastava,Ashish Kumar 42 Srivastava,Naveen Kumar 41
Chattopadhyay,Pronobesh 11
Sudhakar,N.V. 18
Sudheesha, N. 2
Sugandhi,Pratibha 26,27
Sugandhi,Naman 27
Sugandhi,S. 27,28
Sugandhi,Shubham 28
Tandon,Praveen Kumar 36
Tandon,Pavitra 32
Tandon,P.K. 36 Taraab, Nusrat 3
Thakur,L.K. 43
Tiwari,Devesh 34, 37
Tripathi,Aradhana 32, 33
Tripathi, DevendraNarayan 36 Uttam,K.N. 32,33 Vaish, Barkha 5
Verma,Anil K. 43
Verma, Sudhir Kumar 4 Verma,R.C. 21, 22 Vijay,Anuj 9 Vishwakarma,Rahul Kumar 34,35 Yadav,Amita 18
Yadav,Anil Kumar 7 Yadav,Sourabh Singh 10
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SECTION OF PHYSICAL SCIENCES
1. A kinetic study of the solvent effect of Aquo-Dipolar protic media on the catalysed solvolysis
of Ester of longer chain Fatty Acids
1Chandra Kumar Sinha and 2Sushma Jyoti
1Department of Chemistry, S.M.D. College, Punpun, (Patna), Biha, India 2Department of Physical Science,S. Sinha College, Aurangabad, Bihar, India
E-mail:[email protected]
The Solvent effect of ethyl alcohol (EtOH) on the alkali catalysed solvolysis of ethyl hexanoate
having longer carbon chain was studied by carrying out the hydrolysis of the ester in water-EtOH
media of varying composition consisting of 40% to 80% ethyl alcohol (EtOH) (v/v) at different
temperatures ranging from 20 to 40 C .The specific rate constant values of the reaction were found to
be decrease with increasing concentration of ethyl alcohol in the reaction media. The depletion
observed in the values of iso-composition activation energy of the reaction shows that the transition is
solvated and initial state is desolvated with addition of ethyl alcohol in reaction media. From
deplection in the values of H* and S* with simultaneous enhancement in G*values of the
reaction, it has been concluded that the reaction is enthalpy stimulating and entropy controlled and
specific solvation is taking place in the water- EtOH media. From the values of iso- kinetic
temperature, it may be concluded that water-EtOH reaction media obeys Barclay-Butler rule and its
numerical value 245 indicates that there is a weak but acceptable solvent -solute interaction in water
EtOH reaction media.
2.Selective hydrogenation of carbon dioxide to formic acid by molecular hydrogen by Ru
supported solid soft base hydrotalcite heterogeneous catalyst
Minaxi S. Marua, Sanwala Rama, Noor-ul H. Khan and Ram S. Shukla
Inorganic Materials and Catalysis Division, Council of Scientific and Industrial Research (CSIR)
Central Salt and Marine Chemicals Research Institute (CSMCRI), G. B. Marg, Bhavnagar-364002,
Gujarat
E-mail: [email protected]
The pressing demand on the utilization of carbon dioxide (CO2) is growing vertically because of the
uncontrolled continuous enhancement in its concentration in the atmosphere which is mainly due to
the obvious challenges to control the highly demanded industrial growth and deforestation, which in
turn produces CO2. Also non-toxicity, abundant supply and cheapness of CO2 are beneficial to use it
as a raw material leading to innovative routes to produce commodity chemicals. Using CO2 as a
chemical feedstock for the production of chemicals has potential to provide new/newer, more efficient
and economical routes to existing industrial process to produce chemicals. In present investigation, a
ruthenium hydrotalcite based catalyst was synthesized, characterised by FT-IR, PXRD, SEM-EDX,
XPS, ICP mass, and surface area analysis, and was investigated for carrying out hydrogenation of
Oral Presentation
2
CO2in high pressure reactor under heterogeneous conditions in which the catalyst was effective for
selective formation of formic acid. The soft solid base hydrotalcite, in supportedRu based catalyst had
played a double role (i) as a base/promoter and (ii) as a catalyst support. The formation of formic acid
was influenced by the parameters: amount of the catalyst, temperature, pressure, reaction volume and
time studied under the employed reaction conditions. Under the optimized reaction conditions at
laboratory scale at 60 0C, 60 bar total pressure (1:1 ratio of pCO2:pH2) in 60 mL methanol-water (5:1,
v/v) mix solvent, 100 mg catalyst, agitation speed = 800 rpm and in 24 h, the maximum turn over
number (TON) for the formic acid formation obtained was 11389. The activation parameters
computed from the temperature dependence rate of formic acid formation were: Ea= 34.5 ± 2.5
kJmol-1, ΔH# = 32 ± 2.5 kJmol-1and ΔS# = -384 ± 5 Jdeg-1 mol-1. The presence of water in the mixed
methanol-water solvent had effectively enhanced the rate which is characteristically observed due to
its molecular effect. The mechanistic routes for CO2 hydrogenation to formic acid are proposed and
discussed based on the experimental results and observations. The catalyst was successfully recovered
at the end of each catalytic cycle for seven times and almost no loss was found in the selective
formation of formic acid and the structural stability of the catalyst.
3.An effective hydroaminomethylation of 1- Hexene with morpholine using carbon monoxide by
the heterogeneous catalyst: rhodium complex encapsulated functionalized HMS
N. Sudheesha and Ram S. Shukla
Inorganic Materials and Catalysis Division, Council of Scientific and Industrial Research (CSIR),
Central Salt and Marine Chemicals Research Institute (CSMCRI), G. B. Marg,
Bhavnagar,Gujarat,India
E-mail: [email protected]
Carbon monoxide (CO) is significantly used in the hydroformylation and hydroaminomethylation
reactions. Amines are essential building blocks in both bulk and fine chemicals, in the pharmaceutical
industries and its classical bulk syntheses often lead to large amounts of inorganic salts waste.
Hydroaminomethylation of alkenes with amines using carbon monoxide is one of the most potential
novel reactions for the production of amines concerned with atom efficiency, activity, selectivity,
applicability and environment. The reaction proceeds via hydroformylation of alkenes utilizing CO
and hydrogen, followed by reductive amination. A rhodium based heterogeneous catalyst (Rh-HMS-
F) was synthesized by encapsulating HRh(CO)(PPh3)3 complex into the pores of amino functionalized
(F) hexagonal mesoporous silica (HMS-F). The catalyst was thoroughly characterized by P-XRD,
31P-CPMAS NMR, FT-IR, SEM, ICP and N2 sorption analysis and investigated in detail for the
hydroaminomethylation of 1- hexene with morpholine using COand molecular hydrogen in the high
pressure and temperature reactor. The catalyst was found to be effectively active for
hydroaminomethylation of 1- hexene with morpholine. The hydroaminomethylation was investigated
in detail as the function of the catalyst amount, temperature, pressure and 1-hexene: morpholine ratio,
and the performance of the catalyst was found to depend on all these studied parameters. The catalyst
was capable to achieve 100% conversion with high (>95%) selectivity to amine under the employed
reaction conditions: 1-hexene = 11.9 mmol, morpholine = 11.9 mmol, catalyst = 50 mg, pCO = 13.5
bar, pH2 = 54 bar, temp. = 120 °C, solvent: toluene/methanol = 30/20 mL and time = 18 h. The
catalyst was elegantly recovered and recycled for five times without much loss in its activity and
selectivity of the amine. The performance of the catalyst was compared with closely related catalyst
systems, and mechanism of the reaction by the present catalyst system involving hydroformylation
followed by hydroaminomethylation is proposed and discussed.
3
4.Studies on the immunosuppressive effects of Auranofin on Murine splenic lymphocytes
Akanksha Pandey1, Rahul Cheker2 and A. K.Pandey1
1Department of Biochemistry, University of Allahabad, Allahabad-211002, India 2Radiation Biology & Health Sciences Division, Bio-science Group,Bhabha Atomic Research Centre,
Trombay, Mumbai,India
E-mail:[email protected]
Auranofin (AF) (2,3,4,6-tetra-O-acetyl-1-thio-beta-D-glucopyranosato-S-[triethylphosphine] gold) is
a gold(I)- containing antirheumatic drug. It was developed more than 30 years ago, as an oral
substitute for the injectable gold compounds aurothiomalate and aurothioglucose. AF functions by
decreasing the pain in arthritis by decreasing the inflammation. However it has a number of side
effects like stomach/abdominal cramping, nausea, loss of appetite, heartburn, headache, eye redness,
hair loss, numbness/tingling of arms, bloody stool, diarrhoea, sore throat, itching and rashes. AF is
also finding new applications in the treatment of several diseases like cancer and microbial infections.
AF is associated with induction of heme oxygenase-1 and inhibition of inflammatory pathways. AF
interacts with selenocysteineresidue within the redox-active domain of mitochondrial
thioredoxinreductase (TrxR), thereby blocking the activity of TrxR and consequently leading to the
induction of apoptosis. Furthermore, this agent strongly inhibits the JAK1/STAT3 signal transduction
pathway, thereby suppressing expression of immune factors involved in inflammation. In the present
study, the immune modulatory effects of AF were investigated in terms of lymphocyte proliferation
and cytokine secretion. It was observed that AF inhibited mitogen induced lymphocyte proliferation,
without inducing cell death in unstimulated splenic lymphocytes. AF also inhibited cytokine secretion
by splenic lymphocytes to marginal levels but it has no observe effect on ROS and intracellular GSH
levels in these cells.
5.Effects of polymer blending on the quality of Natural Wool through thermal studies.
NusratTaraab, AzarUllahMirzaa2 and GautamJaiswar1
1Department of Chemistry, Dr.BhimraoAmbedkar University, Agra,U.P. India. 2Department of Chemistry, JamiaMilliaIslamia, New Delhi, India.
E-mail: [email protected], [email protected]& [email protected]
Poly (vinylidene fluoride) (PVDF) blend with the hydrolyzed wool powder (HWP) and its composite
membrane have been prepared via solution casting method. The natural hydrolyzed wool and
synthetic polymer PVDF blends composites were prepared by mixing HWP with PVDF as polymer
matrix in various ratios. The hydrolysed wool (HW) was prepared from wool fibers through
consecutive hydrolysis method and cast into fine powder particles. The concentration effects of PVDF
or HW on the membrane performance were investigated. Surface chemical composition, surface and
morphologies, degree of crystallinity, thermal stability and flame retardancy of the HW@PVDF
membranes were characterized by ATR-FTIR, Thermal analysis (TG/DTA) and Differential scanning
calorimetric (DSC) analysis. The char residue value and crystallinity content (Xc%) were also
investigated. It was observed that thermal degradation temperature (Td), glass transition temperature
(Tg) and flame retardancy of PVDF was enlarged by the adding of HWP. The thermal possessions of
blending composites HW@PVDF membranes improved with various weight ratios.
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6.Removal of Navilan Green 5GL from Aqueous Solution by Bauxite
G.S.Gupta and S.S.Chandel
Department of Energy and Environment, Faculty of Science and Environment,Mahatma Gandhi
ChitrakootGramodayaVishwavidyalaya,Chitrakoot,Satna,M.P.
E-mail:[email protected]
Adsorption technique was employed for the treatment of carpet mill waste water containing Navilan
Green 5GL using Bauxite as an adsorbent. It was noted that low adsorbateconcentration, small
particle size of adsorbent, low temperature and acidic medium favoured the removal of the dye.
94.28% removal of the dye was achieved at 100 mgL-1 initial dye concentration, 3000C temperature,
7.0 pH and 600 µm adsorbent particle size. The kinetics showed the first order nature of the process.
The rate constant was found to be 2.7X102min-1under the above optimum conditions of experiment.
The equilibrium data were found to be fit well in the Langumir’s model of adsorption isotherm at
various temperatures. Thermodynamic study at different temperatures was performed and the values
of change in the standard free energy (Δ G0), enthalpy (ΔH0) and entropy(ΔS0) were calculated .
Effect of pH was explained on the basis of aqua complex formation and its subsequent acid – base
dissociation approach.
7.Potential of Abelmoschusesculentus seeds cake based natural coagulant for wastewater
treatment
Richa Sharma, Rachana Singh, Soami P. Satsangeeand Sudhir Kumar Verma
Department of Chemistry, Faculty of Science Dayalbagh Educational Institute (Deemed University),
Dayalbagh, Agra,U.P.India
E-mail: [email protected]
The present research work is a preliminary attempt to explore the adsorption capacity of natural
coagulant made-up from Abelmoschusesculentus (Okra) seed cake. The use of plant based natural
coagulant as wastewater purifier agent play an amazing role in environment-related issues. There are
various processes used for the treatment of wastewater in which adsorption process is one of the best
water treatment technologies around the world and carbon (activated or granular) is undoubtedly
considered as universal adsorbent for the uptake of various types of pollutants from waste water.
Present time, carbon adsorption is now customary in the waste water treatment. Activated carbons
from agricultural by-products might have the advantage of offering an effective, lower-cost
replacement for existing bone char or coal based granular activated carbon. In this work, the potential
of okra (Abelmoschusesculentus) seeds powder coagulant solution was tested for their ability to
remove the hardness, turbidity, metal concentrations and total dissolved solids. Turbidity, hardness
and total dissolved solids were removed effectively with an optimum dosage of coagulant solution.
The maximum removal efficiency for Hardness, Turbidity, Total dissolved Solids, Lead (Pb+2) and
Cadmium (Cd+2) are 73%, 62.4%, 83.4%, 49.1% and 81.1% respectively. Therefore, locally available
materials can be utilized towards achieving sustainable safe water supply. This method is very
economical compare to chemical treatment since it is naturally available, very cheap and
biodegradable. Low maintenance and no skill labour are required. Hence, it was concluded that it is
sustainable and economical way of wastewater treatment.
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8.Biomethanation Potential of Different Urban Solid Waste of Varanasi City and Use of Iron
Oxide Nanoparticles in Enhancing the Catalytic Efficiency of Biogas
Barkha Vaish and Rajeev Pratap Singh
Department of Environment and Sustainable Development, Institute of Environment and Sustainable
Development, Banaras Hindu University, Varanasi, U.P. India
E-mail:[email protected]
Anaerobic digestion of different urban solid wastes is of prime attention in order to reduce the
emission of GHGs and sustainable energy production. Production of biogas provides a potential
source of renewable energy. Despite its several advantages, the potential of biogas technology could
not be fully harnessed. Our study demonstrates anaerobic digestion of different wastes - Municipal
waste (MSW), Sewage sludge (SS) and Flower waste (FW) and its improvement by the application of
green iron oxide nanoparticles. Fe additive might increase gas production as a result of the improved
generation of acetate that provides a suitable substrate for methanogenesis. Therefore, the addition of
Fe2+ at 37 °C to an anaerobic reactor resulted in modest increase in biogas production. Our results
suggest that MSW possesses enormous potential in terms of biogas production as compared to SS and
FW. Fe nanoparticles prepared using green method improved the production of biogas. We found that
at the temperature of 50-55°C, pH 7.5 and organic loading rate 10 Kg VS/L/day at Fe nanoparticles
concentration of 40ml/L provides the most suitable conditions for biogas formation. We found biogas
production rate of MSW using iron oxide nanoparticles 76.42 mL/gVSadd, a 43.3% increase in
activity than the control system. Enhanced production efficiency of biogas combined with no
detrimental effects of green iron oxide nanoparticles on the environment can be a promising way to
solve the energy crisis throughout the world.
9.Structures, stability, and hydrogen bonding in inositol conformers
Nazia Sidiiqui1 and Saleem Javed2
1Indian Institute Of Technology, Kanpur, Uttar Pradesh, India 2Dr.BhimraoAmbedkar University, Agra,U.P.India
E-mail: [email protected]
Various levels of ab initio calculations using the density-functional (DFT), the second order Möller-
Plesset perturbation (MP2) and self-consistent reaction field (SCRF) theory with the 6-311+G(d, p)
basis sets were performed on thirteen theoretically possible inositol stereoisomers. These conformers
were generated by considering the possible orientation of hydroxyl groups in order to maximize the
hydrogen bonding patterns. Gas phase calculations show that the myo- and neo- isomers of inositol
(bearing one and two axial hydroxyl groups, respectively) are marginally more stable (by 0.5 kcal
mol-1) than the all equatorially substituted scyllo-inositol. The calculations when done in solvent
medium (water or ethanol or dimethylsulfoxide (DMSO), the scyllo-inositol becomes most stable as
compared to other isomers, this fact that may be attributed to weaker intramolecular hydrogen bonds
in scylloisomer as against favourable solute-solvent intermolecular interactions in solvent medium
than those in other conformers. In order to get further insights into the strength of hydrogen bonds in
6
these inositol conformers, the individual hydrogen bond energy in all the isomers of inositol was
estimated using molecular tailoring approach (MTA). The calculated hydrogen bond energies in these
isomers are in good agreement with O-H…O bond distances and nOH stretching frequencies. The
estimated H-bond energy suggests that the order of the intramolecular hydrogen bonding strength
follows: axial-axial > equatorial-axial > axial-equatorial > equatorial–equatorial hydrogen bonds. The
intramolecular hydrogen bonds in scyllo isomer are much weaker than those in other conformers.
10.Performance Comparison of FBG as Dispersion Compensator with different Apodization&
Frequency Chirp in an optical fiber link
RaghavendraPatidar , RenuMalsaria and Vishnu Srivastava
Global Institute of Technology, Jaipur,Raj., India
E-mail: [email protected]
Now a day’s optical communication is a popular technique to transmit the data. In daily life we share
our useful data by using optical network. But dispersion is the main performance limiting factor.
However, the compensation of dispersion by Dispersion Compensating Fiber (DCF) and Fiber Bragg
Grating (FBG) can boost significantly the system. This proposed work investigates and analyze the
performance of optical transmission system at 1550 nm using Fiber Bragg Grating (FBG) as
dispersion compensator. The FBGs with several types of apodization were modeled in this project. It
was proven that apodization profile could be reduced the sidelobes. In addition, each profile also has
the bandwidth and the maximum reflectivity better than others. Link has been simulated in efficient
optical communication software called Optisystem.
11.A dual approach experimental and theoretical studies of nickel(II) complex with 2-hydroxy-
N'-[(E)-phenyl(pyridin-2-yl)methylidene]benzohydrazide: Synthesis, crystal structures and
antioxidant superoxide dismutase activity
Yogendra Singh,*and R. N. Patel
Department of Chemistry, APS University, Rewa, M.P., India
E-mail: [email protected]
In the present study, we use a dual approach comprising experimental and quantum computational
studies of new nickel(II) coordination complex with N2O donor ligands viz., [Ni(L)2], 1. (Where HL =
2-hydroxy-N'-[(E)-phenyl(pyridin-2-yl)methylidene]benzohydrazide) have been synthesized and
characterized by means of elemental analysis, spectroscopic, magnetic susceptibility and cyclic
voltammetric measurements. The structures of both complexes were determined by single crystal X-
ray analyses of Ni(L)2], 1. Single crystal analyses reveal that weak CH π (aryl/metal chelate rings)
intermolecular interactions exhibit with supramolecular motifs and metalloaromaticity. Static Jahn-
Teller distortion is also suggested in the complex. X-ray and spectral characterizations have
confirmed the existence of the enol form of the ligands in the complex. The electronic structures,
spectral properties of the ligand and complex have been described by quantum chemical calculations.
The bond lengths and bond angles are in agreement with the XRD results. Antioxidant superoxide
dismutase activity of the complex has also been measured. The results reveal that the performances of
the complex in their antioxidant SOD activity are affected by their electron-accepting abilities.
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12.Anomalous subsurface VLF electric field emissions related to some major earthquakes
occurred in Indian subcontinent
Sarita Sharma and Raj Pal Singh
Department of Physics, GLA University, Mathura,U.P., India
E-mail:[email protected]
Routine monitoring of amplitude of vertical components of VLF electric field emissions related to
earthquakes has been in progress at Chamuhan, Mathura observing station (Geographic lat. 27.49oN,
long. 77.67oE) since 24 March 2011 employing indigenously developed borehole antenna (down the
earth) and a terrestrial antenna (above the earth surface) at the frequency of 3.012 kHz. Observed
VLF data have been analysed statistically using mean and standard deviation around the mean
approach (m ± 2σ) in the light of three major earthquakes (M = 6.8 – 8.5) that have occurred in Indian
subcontinent during the year 2012-2013. Results of analysis show VLF amplitude anomalies on the
day of occurrence of major Sumatra earthquake (M = 8.5) of 11 April 2012 both in the borehole and
terrestrial antennas while for Pakistan earthquakes (M = 7.4, 6.8) of 24, 28 September 2013 a clear
anomaly is seen 3 days before the occurrence of these earthquakes in terrestrial antenna (the
anomalies are weak in borehole antenna). The effect of spurious noises like magnetic storms and
lightning activities have also been examined on VLF data and it is found that the data are not
influenced by these spurious sources. It is suggested that electromagnetic signals generated inside the
preparation zone of these earthquakes as a result of piezoelectricity reached the observing station
through earth ionosphere waveguide.
13.Structural study of PVA membrane with multifarious solvents by spectroscopic techniques
Diptarka Roy1, NidhiAsthana2, KamleshPandey2, MrigankMauliDwivedi2and Anil Kumar Yadav1
1Advanced Materials Research Laboratory, BabasahebBhimraoAmbedkar (Central) University,
Lucknow, U.P., India 2National Centre of Experimental Mineralogy and Petrology, University of Allahabad, Allahabad
U.P., India
E-mail: [email protected], [email protected]
Polyvinyl alcohol (PVA) is a fabulous, non-toxic, synthetic polymer having widespread novel
applications for its biocompatible characteristics. However, water is an excellent solvent for PVA,
except this, it is soluble in numerous polar, organic solvents such as DMSO, DMF, THF, etc. But, it is
very challenging to solute it despite the application of the temperature higher than room temperature.
Also, the selection of solvent plays a vital role in the formation of the PVA-polymeric membrane.
With the variation of the type of solvent, the electrical conducting properties of the membrane also
change. The recent work is associated with the synthesis of PVA polymeric membranes by using
distinct solvents and their characterizations with various spectroscopic techniques. The XRD pattern
of system was recorded using Phillips X-pert diffractometer in the 2 range 10o-75o. The infrared
spectrum was recorded on Alpha ATR-FTIR Bruker (Germany) spectrophotometer in a range 4000-
400cm−1. The XRD pattern informs about the relative crystallinity of the synthesized membrane.
FTIR and Raman spectral studies may indicate the presence of solvents in accord with the solute
8
polymer after the membrane formation. The SEM images show the surface morphologies of the
synthesized PVA-membrane. Furthermore, the adequate study of the synthesized PVA membrane,
using vibrational spectroscopies can explain the probable interaction properties between the solvent
and polymer during the process of membrane formation.
14.The vibrational spectra of the biomolecule 5-Aminoorotic acid: A comparison with uracil
S P Singh1, M Alcolea Palafox2, Gaurav Kumar3 andV.K. Rastogi4
1Department of Physics, B. R. Ambedkar Govt. Degree College, MainpuriU.P.,India 2 Departamento de Química-Física, Facultad de CienciasQuímicas, Universidad Complutense,
Ciudad Universitaria, Madrid-28040, Spain 3 Physics Department, Insititute of Basic Science, Khandari, Agra-U.P., India 4 Indian Spectroscopy Society, KC- 68/1, Old Kavinagar, Ghaziabad ,U.P.,India
E-mail: [email protected], [email protected]
Vibrational spectroscopy is one of the most important tools for the characterization of medium size
molecules, but the interpretation of all the bands observed in the spectra is often not straight forward
but sometimes risky. However, the use of adequate quantum-chemical methods for predicting the
wavenumber of the spectra remarkably reduces the risk in the assignment and can accurately
determine the contribution of the different modes in an observed band. The DFT methods have shown
a more reliable prediction for the calculated wavenumbers and the basis set 6-31G (d,p) gives the best
relationship.
The orotic acid (uracil-6-carboxylic acid) or vitamin B13 is an important biomolecule. Its derivative
5-aminoorotic acid (HAOA) plays an important role in chemistry and biochemistry, but from the
spectroscopy point of view, a complete interpretation of its vibrational spectra is not available.
Therefore, in the present study, the experimental IR and Raman data reported earlier were improved,
and molecular properties were analyzed. In addition, the low Raman wavenumbers were assigned to
different lattice modes computed in the tetramer form for the first time. The N3-H stretching vibration
(mode 29 in U ) is slightly down-shifted (scaled at 3453 cm-1 by B3LYP) as compared to the N1-H
stretching vibration (mode 30 in U) at 3489 cm-1, in accordance with a shorter N1-H bond length than
N3-H. In the isolated state, two very strong IR bands appear at 1775 and 1720 cm-1 corresponding to
(C2=O) and (C4=O) modes, respectively. A very strong IR band at 1666 cm-1 was tentatively
assigned to the stretching (C=O) mode of the carboxylic group. The (C5-N) stretching vibration
(no. 28) is predicted with medium IR intensity at 1300 cm-1 which was related to the experimental IR
band at 1312 cm-1.
Due to the carboxylic group, two intramolecular interactions appear in both conformers of HAOA.
One is through the hydrogen of the amino group, N11-H···O, and the another one is through the N1-H
moiety, N1-H···O16. The significant value of dipole moment (2.8903D) shows that 5-aminoorotic
acid might have the NLO properties.
9
15.Ion acoustic wave relived optical laser beat wave Terahertz generation during a carbon
nanotube
Soni Sharma and Anuj Vijay
Department of Physics,GLA University, Mathura-281406, India
E-mail:[email protected]
The nonlinear interaction of two laser ( 1 2 1, 2 =) by a carbon nanotube matrix is investigated and
laser beat excitation, Terahertz generation is evaluated. Due to pondermotive force, the nanotube
electrons acquire nonlinear oscillatory velocity. It is found that the shape of generated Terahertz
radiation can be turned by laser parameters. In the nanotube, the electron plasma frequency becomes
maximum on the axis and density perturbation due to the ion-acoustic wave gives nonlinear current.
The field amplitude of ion acoustic wave assisted Terahertz increases as n
decreases.
16.Beyond Born–Oppenheimer theory for spectroscopic andscattering processes
Bijit Mukherjee, KoushikNaskar, Soumya Mukherjee, SandipGhosh, Tapas Sahoo and Satrajit
Adhikari
School of Chemical Science, Indian Association for the Cultivation of Science, Kolkata,West Bengal,
India
E-mail: [email protected]
We review our development on beyond Born–Oppenheimer (BBO) theory and its implementation on
various models and realistic molecular processes as carried out over the last 15 years. The theoretical
formulation leading to the BBO equations are thoroughly discussed with ab initio calculations. We
have used first principle based BBO theory not only to formulate single surface extended Born–
Oppenheimer equation to understand the nature of non-adiabatic effect but also to construct accurate
diabatic potential energy surfaces (PESs) for important spectroscopic systems, namely, NO2- radical,
Na3 and K3 clusters, NO3- radical, benzene and 1,3,5-trifluorobenzene radical cations (C6H6
+ and
C6H3F3+) as well as triatomic reactive scattering systems like H++H2 and F+H2.The non-adiabatic
phenomena like Jahn–Teller (JT), Renner–Teller, pseudo Jahn–Teller effects and the accidental
conical intersections are the key players in dictating spectroscopic and reactive scattering profiles.
The nature of diabatic coupling elements derived from ab initio data with BBO theory for molecular
processes in Franck-Condon region has been analysed in the context of linearly and bilinearly coupled
JT model Hamiltonian. The results obtained from quantum dynamical calculations on BBO based
diabatic PESs of the above molecular systems are found to be in accord with available experimental
outcomes.
10
17.Assessing the effect of E-Bayesian Inference for Poisson exponential lifetime model
parameters: Progressive Type II Censoring with Binomial Removals under different Losses,
with Analysis of Biological data
Manoj kumar and AnuragPathak
Department of Statistics,Central University of Haryana, Mahendergarh-123031, India
E-mail:[email protected], [email protected]
The main purpose of this article is to show the E-Bayesian method for computing estimates for the
unknown parameters of Poisson exponential lifetime model under progressive type II censoring with
binomial removals. These estimates are obtained based on prior distribution for the parameter under
symmetric and asymmetric loss function. Also, we derive E-Bayesian estimation under different prior
distribution of the hyper parameter. A comparison between the E-Bayesian and the corresponding
Bayes estimators are compared in terms of their simulated risks. The proposed methodology is
illustrated through different sets of biological data.
18.Synthesis and Application of TiO2 nanocomposite Starch-Based Biodegradable Copolymer as
Plant Growth Regulator
Nandkishor B. Shirsath1, and Jyotsna S. Meshram2
1Department of Chemistry, MSG College, Malegaon, Pune University, MH.,India 2Department of Chemistry, RashtrasantTukadojiMaharaj Nagpur University, Nagpur, MH.,India
E-mail: [email protected]
The present study describes the development of nano-TiO2 based composite of starch-co-
poly(acrylamide) copolymer. The graft copolymer was characterized by Fourier transform infrared
(FT-IR), thermal gravimetric analysis (TGA), scanning electron microscopy (FE-SEM), and X-Ray
Diffraction (XRD) confirmed that acrylamide (AM) was grafted onto starch successfully. The effects
of pH, initiator dosage, temperature, and time on grafting percentage (GP) and grafting efficiency
(GE) were also investigated. The synthesized TiO2 nanoparticles have successfully enhanced the
thermal and biological properties of a native copolymer which was confirmed by TGA and biological
assay. This synthesized nanocomposite starch-co-poly(acrylamide) was used as a superabsorbent
polymer (SAP) with great thermal property and antibacterial activity which regulates the growth of
the plant.
19.Preparation of Thematic Maps and Farming Situation Characterization of Distributary
Command Area using RS and GIS techniques
Sourabh Singh Yadav, Vivek Mishra, Vasu kumar and PrafullKatre
Department of Soil and Water Engineering, SVCAET&RSIndira Gandhi KrishiVishwavidyalya,
Raipur,C.G.,India
Email- [email protected]
This paper reflects the use of newer technologies Remote Sensing (RS) and Geographical Information
System (GIS) which play important role in monitoring canal water distribution and its management,
cropping pattern identification and geomorphology characterisation of command area. The command
11
area of distributary no.21 is situated in Arang block of Raipur district and located between 210
00’00”and 210 15’00” N latitudes and 810 45’00” and 820 00’00” E longitudes with 311m to 262 m
above mean sea level. False colour composite (FCC) of IRS-P6 LISS IV geocoded data and survey of
India (SOI) toposheet on (1:50000) scale were studied in conjunction to extract various information of
the distributary command area. Existing land use/land cover, slope, relief aspect, and physiography
for characterization and soil texture map was prepared using the data collected and interaction with
farmers of study area. Based on the preparation and overlaying of various thematic maps, along with
analysis of Agrometereological, Hydrological & Geomorphological data, four farming situation, as
per the local names of soil texture type viz. Bhata, Matasi, Dorsa and Kanhar were identified,
characterized and mapped based on the soil sampling analysis and peoples participatory research
interaction in the village. It was also found that command area is drained by network of two main
streams, SaktiNala and ShangariNala; and paddy was cultivated on 98% area of command area. It was
found that out of 5 land use classes in the watershed, major area is dominated by Lowland Paddy
(32.03%) followed by current fallow (25.34%) and Midland Paddy(23.41%).
20.Improvement in Linearity of SpaceTWTs 140W Ku-Band with the Effects of Harmonics
RenuMalsaria, RaghavendraPatidar and Vishnu Srivastava
MWT Division, Central Electronics Engineering & Research Institute (CEERI-CSIR) Pilani,
Rajasthan,India
Global Institute of Technology, Jaipur,RJ.India
E-mail: [email protected],[email protected],[email protected]
Linearity improvement is one of the most critical issues in the development of high-power, high
frequency TWT.Higher linearity allows utilizing more compact and less expensive power supplies.
Furthermore, high-efficiency Travelling wave tubes can operate more reliably and have longer
lifetime due to reduced collector loading. The high-power outputs and wide gain-bandwidth make
TWTs ideally suited for these purposes, the nonlinearity of these devices results in amplitude, phase
and spectral distortion. The important features in designing TWT are high efficiency, high linearity,
stable operation, long life, high reliability, small size, low weight and effective heat dissipation. As
one most important feature in designing a TWT is linearity.Nonlinear distortion products appear as
harmonics and for multi-carrier operation also as intermodulation products, at the output of the
amplifier thus limiting the usable bandwidth of the amplifier and degrading fundamental efficiency. In
this paper, design and development of a Ku-band 140W Helix TWT for improved linearity and high
efficiency will be presented.
21.New Generation Natural Photochemical for Mob Dispersion and Riot Control Agents
PronobeshChattopadhyay*, Harshita Krisnathya, PompyPatwary and Sanjay Dwivedi
Defence Research Laboratory, DRDO, Tezpur Assam,India
E-mail:[email protected]
Most of riot control agents are potentials lacrimators and secondary affects the respiratory. All are
produced transient discomfort to the mob and temporarily become incapable to produce a hostile
situation. The common riot control agents are dibenzoxazepine (CR), chloroacetophenone (CN), o-
chlorobenzylidenemalononitrile (CS), and Oleoresin capsicum (OC). All riot controlling agents
12
produces pulmonary distress syndrome, edema or lung injury with a various degree. Chemical
Weapons Convention prohibited the possession or storing of any chemical agents which causes death
or temporary incapacitation and USA not used in Iraq war in 21 century. Most of the countries are
used with the legal passage referring to the restoring of laws.
Now a days,definition of riot controlling agent has been changed. Israel Defense Forces used "Skunk"
a malodorant rather than tear gas but it may not work efficiently under Indian conditions.
Alternatively, we are developing new agents and proved successful during many operations. We have
developed the gases, smoke, or aerosols of "BhutJolokia" or Capsicum chinense, an indigenous chili
of North bank of Brahmaputra valley of India and consider one of the hottest chilies in the World.
"Bhutjolokia" activates the Transient Receptor Potential Vanilloid 1 (TRPV1) receptor and shows
severe chemosensory irritancy which is reversible. Also, we explore the possibilities of using skatole
or MucunaPruriens or in combination. The product shows safe and effective in many trial with
CRPF, J& K Police, Bihar Police and many more. Our study in agreement with a recent report of US
Army and the FBI were reported that OC spray was not associated with any long-term health risks.
22.Synthesis, crystal structure, electrochemical studies and bioactivity measurement of some
mono- and binuclear copper(II) complexes using 5-Bromo-2-[(E)-(pyridine-2
ylhydrazono)methyl]phenol Schiff base
R. N. Patel and S. K. Patel
Department of Chemistry, A. P. S. University, Rewa M.P.India
E-mail:[email protected]
The new copper(II) mono and binuclear complexes [Cu(HL)(ClO4)(H2O)]CH3OH 1,
[Cu(HL)]ClO4 2, [Cu2(HL)2(pyrazine)]2ClO4.4H2O 3 and [Cu2(HL)2(4,4-bipy)(ClO4)2]2H2O4 were
synthesized using 5-Bromo-2-[(E)-(pyridine-2-ylhydrazono)methyl]phenol (HL). These complexes
were characterized using various physico-chemical techniques. Finally molecular structures of these
complexes were obtained by single crystal X-ray analysis. Binuclear complexes have been studied
with variable temperature (2-300 K), magnetic susceptibility measurements and X-band EPR
Spectroscopy. Analysis of susceptibility data reveals an antiferromagnetic interaction between
adjacent copper(II) centers. Superoxide dismutase (SOD) activity of present complexes have also
been measured and discussed.
23.Importance of Environmental friendly Eco Cement
Sunil Kumar1, Vinay Deulkar2 and M Husain3
1GRY Institute of Pharmacy, Khargone M.P.,India 2Jawaharlal Institute of Technology, Borawan, Khargone M.P., India 3SSBT College of Engineering & Technology, Bambhori, Jalgaon MH. India
E mail: [email protected]
Around 26 billion tons of CO2 are released to the atmosphere annually, around 20 billion metric Tons
of which is from the burning of fossil fuels and close to a significant 2 billion tones from the
production of Portland cement. Over two tons of concrete are produced per person on the planet per
13
annum. Therefore, greenhouse gases are increasing in the environment which is the major problem
arising for world. This problem cannot be reduced but this can be minimized by eco friendly material
eco cement. Eco-cements are hydraulic cements containing 15-20% reactive magnesia. When this
reactive magnesia react with Ordinary Portland Cement (OPC), a brucite formsit to capable of
absorbing CO2 from environment. The most important characteristic of eco-cements is absorption of
CO2 from atmosphere. Other properties affected include shrinkage, durability and rheology. This
paper discusses the potential impact on sustainability of the new eco-cement Technologies for
sustainability and comparison of physical properties of Eco Cement with OPC and Portland pozzolana
cement(PPC). It also discusses the amount of CO2 absorb by Eco cement in comparison with OPC and
PPC.
14
.
15
SECTION OF PHYSICAL SCIENCES
24. Cloud Quadrupole in External Electric Field
R.S. Chauhan1, J. Rai2 and N. Singh3
1Uttarakhand Technical University, Dehradun, Uttrakhand, India
2Invertis University, Bareilly, U.P., India 3Rajasthan College of Engineering for Women, Jaipur, Raj.,India
E-mail: [email protected]
The electric field of a cloud quadrupole determined theoretically. Due to the charge separation
mechanisms, the upper part of a cloud becomes positively charged and the lower part becomes
negatively charged. As the charge separation goes on, at a sufficient level of charge at lower part of
the cloud the induction at the earth surface takes place. Thus, an electric quadrupole is assumed to be
created. The electric field generated at any distant point due to the cloud quadrupole is determined.
25. Quantum Biology: Current Status and Future Prospects
ShriNiwash Singh and Yogendra P. Singh
Department of Chemistry, H.D. Jain College, Ara,U.P. India
E-mail: [email protected]
Quantum biology is defined as the application of features of quantum physics to biological objects
and structures. All biological structures can be reduced to biochemistry and at a deeper level to
quantum physics, down to processes at the level of ions, small molecules and proteins (receptors, ion
channels and enzymes). A number of examples of biological processes in which quantum effects are
visible are the transport of electrons and protons in photosynthesis, enzymes catalysis, respiration, O1
faction, vision and basically all other transport processes. Recently developments in experimental
techniques such as ultrafast spectroscopy, single molecule spectroscopy, time-resolved microscopy
and single particle imaging have enabled to study biological dynamics on increasingly small length
and time scale, processes necessary for the function of the living systems that depend on classical and
quantum physical effects. The present work provides an outline of the current status of the field, as
well as insights into the future directions. Furthermore, phenomena such as quantum tunneling,
quantum coherence, quantum superposition, entanglement etc. are also remain more speculative to
future development of quantum biology.
Poster Presentation
16
26. Hydrological assessment of water quality for drinking purpose in agra city india
Ashish Kumar
Chemistry Department, Agra College, Agra,U.P., India
E-mail:[email protected]
This paper presents a hydrological evaluation of the various parameters of drinking water sources of
Agra city with special emphasis on fluoride. The city is situated on the banks of Yamuna River known
for its brackish water, also the south-west side of city lies near fluoride rich area of Rajasthan.
Groundwater quality shows wide variations which depends upon depth, hydrogeological conditions
and human activities. Therefore, it is desirable to independently monitor the quality of ground water
sources.
Ten samples of groundwater and two samples of tap water were collected in clean sterile bottles from
various locations in different parts of city. It is observed that the fluoride levels in ground water
fluoride levels are much higher in some parts (> 2 mg/l). The F seems to be proportional to
distribution of Calcium and positively related to total hardness. The increased F concentration may be
attributed to the interaction of water with basaltic rock. Some groundwater samples show higher
values of hardness, TDS. The spatial distribution of fluoride, as estimated by geochemical assessment,
agrees well with the incidence of dental and skeletal fluorisis. Apart from already affected people, a
larger part of population is at risk. Similarly estimation of other parameters like hardness etc. agrees
well with observed ill effects.
27. AI techniques for security awareness inwireless communication networks
Md. Alimul Haque1 and N.K.Singh2
1Department of Computer Science, V.K.S.University, Ara, Bihar,India 2Department of Physics, V.K.S.University, Ara, Bihar
E-mail: [email protected]
Wireless Communication Networks like 4G, 5G and more than this, which will be highly dynamic
and complicated due to the ultra-dense deployment of heterogeneous networks, have many critical
challenges for network operation, planning, management and troubleshooting. In this digital era,
consumption of wireless data are becoming increasingly distributed with an ongoing paradigm shift
from people-centric to machine-oriented communications, security threats in wireless networks
become more challenging and complex. Previous decade, wireless network was considered a network
of convenience, but not the primary network. Since last 10 years, mostly devices have shifted to being
Wi-Fi only. Smart phones and tablets are obvious, but there’s a wide range of IoT devices that are Wi-
Fi only. Therefore there is an explosion of Wireless Communication Networks-connected IoT
endpoints over the next coming years. Today, Wireless networks need to be reliable, resilient, and
always available with strong security and less threats. For this purpose AI techniques can provide the
analytics to make safe and secure, solve network issues faster, and make engineers more efficient.
Artificial Intelligence is particularly helpful to aware and fixes security problems with the help of ML.
17
AI can use anomaly detection and other features to avoid many common problems, such as DHCP,
RADIUS, and security problems. In this paper we provide a comprehensive survey on the utilization
of AI techniques for awareness and enhancing the efficiency of wireless networks operations.
28. Pesticides with the help of Solvent Eradication of Neem Oil from Neem Seed
1Kumar Kaushalendra and 2Kritika Kaushal
1Department of Chemistry, J.J College, V.K.S.U. Ara, Bihar, India 2M. Tech in civil engineering, SHUATS, AllahabadU.P., India
E-mail:[email protected]
Neem is regarded as “The Wonder Tree” and “Nature’s Drug Store”, because its extracts have a vast
pharmacological activity and are used as raw materials for pesticide, medicine and other commodities.
All parts of neem such as leaves, bark, flower, fruits, seeds and roots have advantages in medical
treatment and industrial products. Neem seed is a part of Neem tree which has high concentration of
oil which is widely used as insecticides, lubricant, drugs for diseases like diabetes and tuberculosis.
There are several methods to obtain neem oil from the seeds like mechanical pressing, supercritical
fluid extraction and solvent extraction. Aim of this paper is to study the adequacy of the eradication
and claustration of Natural toxic constituents available in some well known tree borne oil seeds for
effective utilization in pesticide formulations. Neem seed kernels prior to their extraction for oil were
pre-treated in single stage with different solvents, viz., isopropanol, acetone and ethanol, in pure as
well as in aqueous forms. The aqueous ethanol was also employed for three stage counter-current pre-
treatment of neem seed kernels, which gave the best results. Further, development of safer pesticides
from natural products has been necessitated due to the fact that synthetic organochlorine and organo
phosphorus pesticides have created health hazards to mammals and have polluted the ecosystem.
29.Assesment of Environmental Awareness Ability of Higher Secondary Students of
Chitrakoot Town, M.P.
B. Datt,A.Gupta and G.S.Gupta
Department of Energy and Environment, Faculty of Science and Environment, Mahatma Gandhi
ChitrakootGramodayaVishwavidyalaya,Chitrakoot, Satna, M.P., India
E-mail:[email protected].
Assesment of environmental awareness ability (EAA) in higher secondary students of
Chitrakoot town was carried out .A sample of hundred students (50 male +50 female students) was
selected for the study.EAA level was assessed using a manual for Environment Awareness Ability
measure developed by Jha ,2005.The manual contained 51 questions including 43 positively
worded and 8 negatively worded.The range of possible minimum and maximum score of EAA was
00 to 102.Out of 50 male students it was found that 15,20,14 and 01 students were found to have EAA
level of high ,above average,average and extremely low respectively .Similarly out of 50 female
students, 6,31and 13 students were found to possess EAA Level of high,above average and average
respectively.None student (male or female) was found to have extremely high level of EAA
.Moreover the level of EAA in the study area was not found satisfactory.Therefore ,it is required to
18
enhance the EAA level of above area by organising awareness camps,seminars,workshopsetc. related
to environment.
30. Assessment of Drinking Water Quality in Chitrakoot Nagar Panchayat Area
Amita Yadav1, Jaya Dwivedi2 and G.S. Gupta1 1Department of Energy and Environment, Mahatma Gandhi ChitrakootGramodayaVishwavidyalaya,
Chitrakoot- 485334, M.P., 2Department of Chemistry, Banasthali Vidyapith, Bansthali , Raj., India.
E-mail:[email protected]
The present study deals with the collection of drinking water samples from 17 sites of
Chitrakootnagarpanchayat area and have been analyzed for some physico-chemical and
bacteriological parameters like pH, electrical conductivity (EC), total dissolved solids (TDS), total
alkalinity (TA), total hardness (TH), BOD and E.coli. The result showed that pH, EC, TDS, TH,
BOD ranged from 7.1 to 7.8, 385 to 791 μS/cm, 274 to 695 mg/L, 140 to 200 mg/L, 216 to 300 mg/L
and 4.9 to 5.6 mg/L respectively. Values of most of the parameters were within the limit of drinking
water quality standards except EC, TDS, TH and BOD. The level of EC in all samples was more than
its standard value of WHO (300 mg/L).The extent of TDS was found beyond the standard value of
WHO in hand pump water samples. Extent of TH was found within the permissible limit while values
of alkalinity was found higher than the standard limit of WHO (100 mg/L) in all sampling sites. 40%
water samples were found polluted due to presence of E.Coli. In general the present investigation
showed that the maximum parameters were at a level of pollution.
31. Impact Assessment of Hydro chemical changes and study of Ground Water pollution of
different water sources in part of Kakinada East Godavari Dt - AP, India
1D.Rama Rao2,N.V.Sudhakar3,P.Sara and 4D.Ramamurty
1,2Department of Chemistry,P.R.Govt college (A) Kakinada,AP,India 3Department of Botany P.R.GovtCollege (A) Kakinada 4Department of Chemistry GDC-Tuni.
E-mail: [email protected]
Hydro chemical investigations were carried out in the Kakinada, AP India, to assess the chemical and
microbial composition of ground water. A total of 20 ground water samples were collected and
analyzed for the water samples obtained from different sample locations. People on globe are under
tremendous threat due to undesired changes in the physical, chemical and biological characteristics of
air, water and soil. Due to increased human population, industrialization, use of fertilizers and man-
made activity water is highly polluted with different harmful contaminants. Natural water
contaminates due to weathering of rocks and leaching of soils, mining processing etc.The availability
of suitable quality water is an indispensable feature for preventing diseases and improving quality of
life. It is necessary to know details about different physico-chemical parameters such. The evaluation
was done by the hydro chemical metals characterization by measure of contamination levels with the
Ground waters. The purposes of this study are, specifying spatial distribution of groundwater quality
parameters such asTemperature,pH, Electrical Conductivity (EC), TDS, TA pH, Hardness,Chloride,
Nitrate and sulphate. The research results reveals that their common origin, especially from industrial
effluents and municipal wastes that are responsible for the enhancement of chemical components
19
moving together in groundwater higher values of physicochemical parameters reveal the
anthropogenic sources of these variables. The high concentration of parameters in groundwater water
may cause serious threat to public health as well as the aquatic environment.
32. Synthesis, structural characterization of nickel(II) coordination complexes with polydantate
ligands
R. N. Patel, Ajay Kumar Kamat and S. K. Patel
Department of Chemistry, A. P. S. University, Rewa,M.P.U.P., India
E-mail: [email protected]
Three new nickel(II) complexes [Ni(SA)2(BSA)] 1, [Ni(SA)(BSA)2] 2 and [Ni(BSA)2(H2O)2] 3 (SA
= Salicylaldehyde; BSA = 5-bromo-salicylaldehyde). Their optimized structures were determined by
different spectroscopic techniques. The three nickel ions are hexa coordinated with distorted
octahedral geometries. UV-vis spectra of complexes 1-3 are good agreement of these structures.
Complexes showed well resolved three bands. Assuming distorted octahedral geometry for nickel ions
in these complexes, the bands may be assigned as 3 3 , 3 3 and 3
3 respectively. IR spectra of all nickel(II) complexes show broad absorption bands with maximum
a ~3450 cm-1. All the complexes (1-3) show similar type of electrochemical behavior. In the cyclic
voltammograms of every complex in each scan rate one redox couples was observed.
33. Synthesis, structural variation, quantum chemical studies and antioxidant properties of
copper complexes
D. Kumhar, Satish Kumar Patel*, Y. Singh and R. J. Butcher
Department of Chemistry, APS University, Rewa,M.P., India
E-mail: [email protected]
Two copper(II) polypyridine (1,10-phenanthroline) complexes have been synthesized and
characterized using various physico-chemical techniques. Single crystal structures have been
determined for the octahedral complex [Cu(1,10-phen)3].2ClO4 1 and seesaw complex [Cu(2,9-
dimethhyl 1,10-phen)2].ClO4 2. Electrochemical behaviour of these complexes were explored using
cyclic voltammetry (CV) and differential pulse voltammetry (DPV). The electron paramagnetic
spectra are reported as well. In complex 2 only strong metal-to-ligand charge transfer band is
observed. The electronic and spectral proportion discussed using quantum chemical (DFT and TD
DFT) calculations. Spin densities on copper(II) centre in both complexes were also calculated. Both
complexes exhibit good superoxide dismutase (SOD) mimetic activity.
20
34. A Correlation Between K-Edge XanesAnd Pauling’s Effective Charge in Some Copper
Systems
Rakesh Kumar Ranjan1 Aman Raj2and R.N.Sinha3
1PG Dept. of Physics Veer Kunwar Singh University, Ara, Bihar, India. 2Dept. of Physics, Maharaja College, Ara, Bihar, India. 3PG Dept.of Physics V. B. University ,Hazaribag, Jharkhand, India.
E-mail:[email protected] ,[email protected]
Though XAS (X-Ray Absorption Spectroscopy) has emerged as an appropriate tool for obtaining
structural information around the X-ray absorbing atom its theoretical analysis has remained very
difficult till date. XANES is still passing through a developing stage leaving wide area for developing
analytical method for quantitative analysis. Inverse correlation ER2 =c has been widely used for the
determination of inter atomic distances in several model systems, where E is the energy of a XANES
peak, R is the inter-atomic distance and c is a parameter whose nature has not been fully understood.
We in the present paper have correlated c with effective-charge on the K-edge of X-ray absorbing
Copper atom in CuBr, Cu2O, CuCl2, CuF2, CuSO4, La2CuO4, CuO and Cu.
35. Study of Trace Gases over Alaknanda Valley Garhwal Himalaya Uttarakhand
Sanjeev Kumar1, AlokSagar Gautam1, SurendraPratap Singh2 and Pushpendra Singh Soni3
1Department of Physics, HNB Garhwal University Srinagar Uttarakhand 2Department of Physics, Dr B. R. Ambedkar Govt. Degree College, Mainpuri (UP) 3Department of Physics, Institute of Basic Science, Khandari, Agra
E-mail: [email protected]
A study for assessment and management of sulfur dioxide (SO2) concentration in ambient air of
Srinagar was carried out in HemvatiNandanBahugunaGarhwal University (HNBGU), Chauras
Campus Srinagar GarhwalUttarakhand, India. The continuous in-situ observations were taken for
temporal variation in the concentration of SO2 (EcotechSerinus 50 Sulfur Dioxide analyzer). The
maximum SO2 concentration was recorded in pre-monsoon season(5.95 ± 2.02 μ g/m3), may be
attributed to an extensive forest fire events as well agricultural waste burning, whereas minimum SO2
concentration was recorded in monsoon season(1.54 ± 0.82 μ g/m3) due to wet deposition/
precipitation, events. In the case of diurnal variation, higher level of SO2 (5.19 ± 0.84μg/m3)
concentrations was reported at 1500 hr local time may be due to photochemical activities as well as
anthropogenic activities and lower level 4.45 ± 0.70 μ g/m3 was observed at 0600 hr local time due to
low human activities in early morning hours. In our observations, SO2 show strong and positive
correlation with temperature (r=0.8) and wind speed (r=0.8), whereas humidity (r= - 0.8) and wind
direction (r= - 0.4) shows strong negative correlation with SO2. The SO2 concentration did not
21
exceed the maximum permissible limits of the World Health Organization (WHO) at the monitoring
site (Srinagar valley).
36. CNN Copper Pincer Complex Mediated Synthesis of SubstitutedIndole Derivatives
JaggiLal1,2
1Department of Chemistry, Dr. K.N. Modi University,Newai, Rajasthan-304021, India 2Department of Chemistry, Malaviya National Institute of Technology, Jawaharlal Nehru Marg,
Jaipur, India
E-mail: [email protected]
A new and highly efficient methodology for the synthesis of a series of substituted indole derivatives
in good to excellent yield using anilines and ethylene glycol has been disclosed. In the method CNN
copper pincer complex has been used as a catalyst. The development of new protocol for the
preparation of indole derivatives is a most important goal in drug discovery research. All the
synthesized substituted indole derivatives have been characterized by FT-IR, 1H-NMR, 13C-NMR
and HRMS studies. Broad substrate scope and simple operation make the method potentially
practical. In addition to this, a mechanistic study of the reaction is also examined using copper pincer
complex.
37. The study of excess molar volume and deviation in viscosity of binary mixture of propyl
amine in benzene and toluene at 306k ultrasonically
R.C.Verma
Department of Chemistry, Janta College, Bakewar,Etawah,U.P., India
E -mail: [email protected]
Densities, ultrasonic velocities and viscosities of propyl amine with benzene and toluene have been
measured over entire range of composition at 306 K and atmospheric pressure. The computed acoustic
and thermodynamic properties of propyl amine in benzene and toluene will give excess values of
isentropic compressibility, molar volume and viscosity. The excess values will decide the nature and
extent of molecular interaction of propyl amine with benzene and toluene at 306K.
38. Study Of Excess Molar Volume Deviation In Viscosity Of Binary Mixture Of Propyl Amine
in Benzene And Toluene at 311k Ultrasonically
Vijay Laxmi1 and R.C.Verma2
1Department of Chemistry , Agra College of Agra 2 Department of Chemistry, Janta College, Bakewar (Etawah)
E -mail: [email protected]
22
Densities, ultrasonic velocities and viscosities of propyl amine with benzene and toluene have been
measured over entire range of composition at 306 K and atmospheric pressure. The computed acoustic
and thermodynamic properties of propyl amine in benzene and toluene will give excess values of
isentropic compressibility, molar volume and viscosity. The excess values will decide the nature and
extent of molecular interaction of propyl amine with benzene and toluene at 306K.
39.Physico-Chemical And Antimicrobial Study Of Metal Complexes Of Cu(Ιι) And Schiff
Bases Derived From Heterocyclic Amines
Akanksha Porwal1 and R.C.Verma2
1SRLT Group Of Institutions Ekdil, Etawah,U.P., India 2 Dept. of Chemistry, Janta College, Bakewar, Etahwah,U.P., India
E-mail: [email protected]
The Schiff bases like BenzaldiminePyrrole was synthesized by benzaldihyde and
pyrrole.Benzaldimine Thiophene was synthesized by benzaldihyde and thiophene.Benzaldimine
Furan was synthesized by benzaldihyde and furan whereas Benzaldimine Pyridine was synthesized
by benzaldihyde and pyridine. Similarly,NaphthaldiminePyrrole was synthesized by naphthaldihyde
and pyrrole . NaphthaldimineThiophene was synthesized by naphthaldihyde and thiophene .In this
sequence Naphthaldimine Furan was synthesized by naphthaldihyde and furan and Naphthaldimine
Pyridine was synthesized by Naphthaldihyde with pyridine. Copper complexes of all bases were
made and antimicrobial activity screening have been studied.
40. An Efficient Synthesis Of 3,4-Disubstituted Isoxazole-5(4h)-Ones Under Solvent Free
Condition
Pramod Kulkarni
Department of Chemistry,HutatmaRajguruMahavidyalaya, Rajgurunagar, Pune,MH., India
E-mail: [email protected]
Isoxazole derivative possess significant biological activity and structural backbone of a variety of
natural products. The usual synthesis of 4-arylidene-3-methylisoxazol-5-one to be carried in two
steps, in the first step, preparation of oxime[ethyl 3-(hydroxyimino)-3-methylpropanoate] and ring
closing of this oxime to afford 3-methylisoxazol-5-one. Then in second step, the Knoevenagel
condensation of aryl aldehydes and 3-methylisoxazol-5-one produce 4-arylidene-3-phenylisoxazol-5-
ones. The three-component reaction of ethyl acetoacetate, hydroxylamine hydrochloride and various
aryl aldehydes for the synthesis of isoxazole-5(4H)-one has been reported by different catalyst. Some
of the reported methods suffered from drawbacks such as long reaction time, low yield, tedious work-
up, expensive catalyst and use of toxic solvent. Here we reported a one-pot and three component
synthesis of 3-mehyl-4-arylmethyleneisoxazol-5(4H)-ones was developed using microwave radiation
under solvent free condition in the presence of magnesium bromide as the catalyst. The products were
obtained in high yields and short reaction time, with easy workup process. The present method
23
provides an easy and efficient approach for the synthesis of this class of compounds, because of its
clean reaction profile and operational simplicity.
41. Solvent Effect of Aquo-Dioxan Reaction Media on the Reactivityof DimethylMalonate
Ram Suresh Pandey
Department.of Chemistry, J. J. College, Ara,V. K. S. University, Ara, Bihar, India
E-mail: [email protected]
Dimethyl malonate is commonly known as malonic ester and due to presence of active methylene
group, it is very useful in synthesizing a variety of organic compounds. In order to highlight the
solvent effect on its reactivity, its alkali catalysed hydrolysis was studied in aquo-dioxan solvent
system (media).
Out of the three thermodynamics activation parameters, namely ∆H*, ∆G* and ∆S*, ∆H* and ∆S*
values of the reaction were found to decrease simultaneously with increase in ∆G* value and this
shows that the dioxan behaves as a entropy controlling solvent. The iso-kinetic temperature of the
reaction is found to be 285, from which it is inferred that there is weak solvent-solute interaction in
aquo-dioxan reaction media.
42. Solvent Effect of aquo-Dioxan media on the BiochemicalEfficiency of Nicotinates
Ajay Kumar Singh
Department of Chemistry, S.B. College, Ara, V. K. S. University, Ara, Bihar, India
E-mail: [email protected]
The biochemical efficiency of heterocyclic ester, nicotinate depends on its hydrolysis product nicotine
acid. Hence, for studying the effect of 1:4dioxan on the biochemical efficiency of nicotinate ester, the
kinetics of alkali catalysed hydrolysis of methyl nicotinate has been studied in aquo-dioxan
media.The values of Iso-composition activation energy (EC) of the reaction were found to decrease
with increasing proportion of Dioxan in the reaction media. The pausible explanation for such
depletion is solvation and desolvation of transition and initial states of the reaction respectively to
different extent. From the enhancement observed in ∆G* values with simultaneous decrease in the
values of ∆H and ∆S* of the reaction, it is inferred that the organic co-solvent dioxan acts as entropy
controller and enthalpy stimulator solvent for alkali catalysed solvolysis of methyl nicotinate.The
numerical value of Iso-kinetic temperature of the reaction which comes to be nearly 291.0 ( below
300) indicates that there is weak but considerable solvent-solute interaction in the aquo-dioxan
solvent system.
43. Hazardous Effects of Air Toxics on the life of Living Beings
24
KumariBibha
Jagjivan College, Dehri~on-Sone,V.K.S.University, Ara, Bihar, India
E-mail: [email protected]
The clean air which is a natural mixture of many useful gases, moisture and particular matters is
essential for safe and carefree life on this earth. But now-a-days some foreign matters are found mixed
with the clean air in significant quantities and thus the clean air has been polluted. The polluted air
becomes harmful to mankind, animals and plants directly or through food chain.
Hazardous air pollutants (HAPs) are the chemicals in the atmosphere that in sufficient concentration
may have adverse effects on the health of human and other animal species and may cause damage to
ecological and social systems such as forests, agricultural crops and building materialsMost air toxics
originate from human-made sources, including mobile sources (e.g., cars, trucks, buses) and
stationary sources (e.g. refineries, petrochemical industries, power plants and steel plants) as Well as
indoor sources (e.g., some building materials and cleaning solvents.) HAPs come from man-made and
natural sources and include persistent organic pollutants, volatile organic compounds, polycyclic
aromatic hydrocarbonsand heavy metals.
44. Solvent Effect of aquo-Protic Reaction Media on theCatalysed Solvolysis of a Substituted
Formate
Namrata
Department of Chemistry, V.K.S. University, Ara, Bihar, India
E-mail: [email protected]
The kinetics of acid catalysed solvolysis of Iso-butyl formate (substituted formate) in aquo-methanol
(protic solvent) media was found to obey first order kinetic equation. From the study of the Effect of
change of [H+] ion concentration on the rate of the reaction, it is inferred that in presence of a protic
solvent (methanol) in the reaction media, the reaction follows AAC2 mechanistic path. .The number
of water molecules of the reaction media associated with the activated complex was found to decrease
with increase in temperature of the reaction and from this, it is concluded that in presence of
methanol (protic solvent) in the reaction media, the mechanistic pathway of the reaction is changed
from unimolecular to bimolecular.From the evaluated value of the iso-kinetic temperature of the
reaction i.e. 321.0, it is opined that in presence of methanol, there is appreciably strong solvent-solute
interaction in the aquo-methanol reaction media.
45. The Green Chemistry and its use for Environmental Sustainability
Pramod Kumar Singh
S. M. College, Dumraon,V. K. S. University, Ara,Bihar, India
E-mail: [email protected]
The chemical industry is the biggest source of hazardous waste and the number of agents considered
toxic is continuously increasing due also to a series of more restrictive laws (REACH). The term
Green Chemistry was coined in the 1990s, to bring focus on the increasing interest in developing
25
more environmentally friendly chemical processes and products. In this term the Green Chemistry
represents the most concrete answer of the scientific community to the pressing environmental needs
and sustainability. There is a pool of clean technologies that are becoming widely studied or used
between them.Catalysis is a well established one, well proven at the largest volume end of the
chemicals industry. Green Chemistry begins by design and design derives from inspiration. Nature is
the biggest chemical laboratory in the world and produces, every days tonnes of chemicals in
absolutely, eco-friendly and sustainable way. The secret of natural chemistry are the enzymes. We
must take inspiration from them to setup new green chemical process.
46. An Introduction to Pesticides and their Hazardous Effect on Environmental and Health
perspectives
Ram Tawakya Singh
V.K.S. University, Ara, Bihar, India
E-mail: [email protected]
Pesticides include compounds used to reduce crop loss from disease and pesi (Plant and insect) attack,
both before and after harvest and can be present in both agricultural and non-agricultural
formulations. Pesticides include herbicides, fungicides, insecticides, rodenticides, soil-sterilants, wood
preservative and surface biocides etc. These may be either a vapour or a mixture of vapour and
airborne particles are also used for public health to control virus human pests and disease carriers.
POPs (Persistant Organic Pollutants) that can migrate to polar regions through evaporation,
atmospheric transport and deposition.Agricultural pesticides are released into the atmosphere by spray
drift, post application, voltalization and wind erosion of soil.
47. The Treatment of Industrial Effluents for The Discharge of Textile Dyes Using by Photo
catalytic degradation and Adsorbents
Rekha Rani Agarwal
Global Institute of Technology, Sitapura, Jaipur, Raj.,India
E-mail: [email protected]
Nowadays, the extraction of textile dyes from the wastewater in industry becomes an environmental
worldwide issue. Water contamination is a big threat of and causes some chronic diseases for human
body. Textile dyes are worn to several types of products by fabrication, for paper, leather, plastic and
some products, used in human daily life. Despite of containing various hazardous chemicals into
textile dyes, it is necessary to be discharged from effluents of waste-water of industry through
treatment as quick as possible. By reviewing of effects of textile dyes such as toxicity and
mutagenicity, bacteria and organism embedded a prologue of the expulsion of metals to the
environment. Certainly, for the dominion of textile dyes removal, adsorption can be regarded as
effective method used by activated carbon, bentonite clay as adsorbent for the wastewater treatment in
industry. Predominantly, it is a critical review of literature conferred the removal of textile dyes for
the treatment of industrial wastewater by using techniques, technologies, adsorbents thoroughly.
Certainly, Adsorption is the sole and ultimate approach for removal of textile dyes through the
industrial wastewater treatment. This literature shows the feasibility of minimum cost adsorbent in
terms of maximum outcome of industrial wastewater treatment for textile dyes removal.
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48. The Impact of Plastic Bags on the Environment: A field Survey of the City of Jaipur
Rekha Rani Agarwal
Global Institute of Technology, Sitapura, Jaipur,Raj.,India
E-mail: [email protected]
Thousands of plastic factories are producing tons of plastic bags which are very popularly used by the
people for shopping purposes because of its ease, cheapness and convenience of use but their very
hazardous negative impact is never highlighted or, at the very least, openly discussed in a more
serious tone. The situation is worsened in India as economically disadvantaged country. Many
countries have banned plastic bags due to public concern over the serious negative impact on the
environment and agriculture, especially, in agricultural countries, such as Bangladesh, India, Pakistan,
South Africa, etc. In this research paper, we surveyed the field for the city of Jaipur and recorded of
the where about of those plastic bags accumulated. The number of factories producing plastic bags
and discuss the causes and effects and reviewed a range of solutions for a clean environment for us
and our future generations. The isolated microbial strains were identified based on their cultural
morphological and biochemical study.
49. Effect of atmospheric particulate matter concentration (PM10 and PM2.5) on the
astronomical light pollution at Tezpur, Assam.
Jayanta Bora and Raza Rafiqul Hoque
Department of Environmental Science, Tezpur University, Tezpur, Assam, India
E-mail: [email protected]
Light pollution is the unwanted and excessive light in the night environment, originated from
anthropogenic or artificial lighting activity. Near cities, night skies are now hundreds of times brighter
than the skies of hundreds of years ago. Astronomy has suffered a lot by the light pollution. Light
pollution has increasing illumination of night sky and subsequently makes difficulties in observing
astronomical objects. Natural environment has also been effected a lot due these changes in light
intensities. Diurnal life-sustaining behaviors of plants and animals depend on Earth’s daily cycle of
light and dark. It also affects the nocturnal ecosystem, having negative impacts on plant and animal
physiology. It can confuse the migratory patterns of animals. With the increase in urbanization and
industrialization our night sky became brighter day by day. Major side-effect of urbanization is the
increase in air population. The level of particulate matter (PM) in air is much high than that of
threshold values. These PM also induces an incremental effect on light pollution by scattering a part
of the electromagnetic spectrum. So, there is a connection between light pollution and air pollution.
With this concern a study was carried out to find the effect of air pollution on the astronomical
illumination on a temporal scale at Tezpur, Assam.
50. Design of natural system based Oxidation Pond for Industrial waste water treatment
Pratibha Sugandhi1 and Sunil Kumar2
1ShriDadaji Institute of Technology, Khandwa, M.P,India 2GRY Institute of Pharmacy, Khargone M.P, India
E-mail: [email protected]\,[email protected]
27
Treatment of wastewater at source has been identified as the best practice in environment
management. High BOD (Biological Oxygen Demand) wastewater is a very common effluent in these
days. Despite of the fact that in some cases this waste water is not directly toxic to the Environment, It
certainly results in depletion of oxygen in water body into which it discharged.Various alternatives are
available for wastewater treatment. Most of them are Energy incentive or require sophisticated
maintanance. And due to lack of it, most of the system fail, with out providing a satisfactory
result.Amongst all alternative resources of energy, solar energy is the most dependable resources. It is
in abundance and environmental friendly. In the present case, we have suggested an oxidation pond
system based upon solar energy and is best option for Indian conditions in medium size towns we
have designed a parallel scheme, so that during maintenance etc.at least partial treatment go on. The
final effluent is suggested to be used for fish culture or irrigation etc.
51. Evaluation Of Water Sample Of Kunda River With Reference To Physco-Chemical
Parameter At Khargone
Naman Sugandhi1and Sunil Kumar2
1Nimar Institute of Technology, Khargone M.P, India 2GRY Institute of Pharmacy, Khargone M.P, India
E-mail: [email protected]
In the present study, samples of water were collected from three different places in the river at two
different times of the year. The first set of samples was collected in the month of September, 2017 &
the second set was collected in March, 2018. Over the due course of time various parameters
regarding the water quality were analyses & the Indian Standards: 10500 (Drinking water
specifications) was referred to in order to check the acceptability of water. The parameters which
were analyzed are as follows :1. Determination of pH.2. Determination of Dissolved Oxygen. 3.
Determination BOD 4. Determination COD .5. Determination MPN TEST.Most of the parameters
were not found to be in the desirable range for drinking water & hence, appropriate measures were
suggested to improve the quality of water.
52. An inventive idea to collect solar energy from environment salt gradient solar pond:
Opprtunitesto Become a Solar Enterperenure
Pratibha Sugandhi 1, S. Sugandhi 2 and S. K. Mahajan3
1ShriDadaji Institute of Technology, Khandwa, M.P., India 2Jawaharlal Institute of Technology, Borawan, Khargone , M.P., India 3 P G College Khargone M .P.,India
E-mail: [email protected], [email protected]
There are innumerable opportunities for implementing an innovative renewable energy solution.
However, the best place to start looking is in your own area of expertise.Fossil fuel, the principal
resource of energy, is getting depleted rapidly. The alternative sources of energy which are well
known to everybody, but what we need is the technology to harness them in a cost effective manner.
28
Fossil fuel resources are adding a great burden to Indian economy due to their import. The present
paper reviews the environmental as well as Economical aspect of alternative sources of energy and
explores their futuristic perspective. The sun is the largest source of renewable energy and this energy
is abundantly available in all parts of the earth. It is in fact one of the best alternatives to the non-
renewable sources of energy. Salt gradient solar pond (SGSP) is the most economical solar energy
harnessing system. With The salt gradient solar pond we can generate Electricity, which is not only
Economical at commercial level but Environmental Friendly also. The approach is particularly
attractive for rural areas in developing countries like in India with low investment cost for power
generation. Locally available material like clay, plastic liner and salt can be used. India has a vast
coastal line that provides saline water free of cost. The present work aims to give a rational design of
SGSP considering various design parameters.
53. Salt gradient solar pond, an important research in the field of alternative energy:
Solar enterperenurship for rural devlopment
Shubham Sugandhi1, S. Sugandhi2 and Adit Shah2
1Pune Institute of Technology, Pune, MH.India 2Jawaharlal Institute of Technology, Borawan, Khargone M.P, India
E-mail: [email protected]
Present trend of research is towards alternative sources of energy. Since we use energy for almost
everything, the recent trend towards greener, more sustainable technology is creating many
opportunities for entrepreneurial-minded individuals. But is this just a fad? Or are there viable
business opportunities for the long term? I explain why I think the trend towards Solar energy is here
to stay and give some tips on starting your own Solar energy business.InThe proposed research
scheme is aimed at the aforementioned strategic objectives through which exploring solar energy
and more importantly explore the feasibility of enhancing local security and independency of
electricity supply to the rural area of country. The merit of this scheme lies in the fact that solar
energy harvesting, storage, and utilization are holistically considered and thereafter they will be
meticulously investigated. One way to tap solar energy is through the use of salt gradient solar ponds.
Solar ponds are large-scale energy collectors with integral heat storage for supplying thermal energy.
It can be use for various applications, such as process heating, water desalination, refrigeration, drying
and electricity generation. This is the most economical energy conversion system to reduce green
house gas emissions is studied and included in the paper.
54. Salt Gradient Solar Pond: An Environmental Friendly Futuristic Energy Option
ForEnterperenure
S Sugandhi and Adit Shah
Jawaharlal Institute of Technology, Borawan, Khargone M.P, India
E-mail: [email protected]
From photovoltaic solar roof top power plant to Solar lantern are for generate electricity, Sun
entrepreneurs are taking advantage of the green revolution by finding Solar energy solutions.Since we
use energy for almost everything, the recent trend towards greener, more sustainable technology is
29
creating many opportunities for entrepreneurial-minded individuals.Economical availability of energy
is the first step towards development. Fossil fuel resources are getting depleted rapidly and are adding
a great burden to Indian economy due to their import. Compared to other alternative sources of
energy, solar energy is viable, environmental friendly and available in abundance. Salt gradient solar
pond (SGSP) is the most economical solar energy harnessing system. With The salt gradient solar
pond we can generate Electricity, which is not only Economical at commercial level but
Environmental Friendly also. The approach is particularly attractive for rural areas in developing
countries like in India with low investment cost for power generation. Locally available material like
clay, plastic liner and salt can be used. India has a vast coastal line that provides saline water free of
cost. The present work aims to give a rational design of SGSP considering various design parameters.
In the present work, an attempt has been made to develop a simple expression to predict the thermal
performance of SGSP.The expression is developed by solving the heat balance equation applicable to
the storage zone with certain simplifying assumptions. For simplicity in analysis, ambient conditions
(temperature and radiation) are considered to be constant.A simulation model is also developed by
solving the heat flow equation. The results obtained by both the methods are compared and found to
be in good agreement with each other. The present expression provides a great simplicity in
calculations and saves computational time. In fact it allows manual calculations for estimation of salt
gradient solar pond and eliminates the necessity of computer.
55. Kinetic study of the hydrolysis of mono-2,4,5-tri-methyl phenyl phosphate ester in Buffer
medium
Praveen Kumar1 and R. B. Singh2
1Department of Chemistry, Acharya Sitaram Chaturvedi Mahila Mahavidhyalaya,Ram Nagar,
Varanasi-221012 (U.P.) 2Department of Zoology, School of Life Sciences, Dr. Bhimrao Ambedkar University, Khandari
Campus, Agra,U.P.,India
E-mail: [email protected]; [email protected]
Phosphorus is one of the most abundant elements on the earth and has a broad role in living system
and reaction of phosphate ester in enzyme is of the great importance. It is a part of many essential
biological components such as lipids, bones, genetic materials, etc. Phosphate esters are very essential
in living organism for growth, development and maintenance of plants and animals. Kinetic study of
the hydrolysis of mono-2,4,5-tri-methyl phenyl phosphate ester has been investigated in pH 0.00 to
7.46 at 97 ±0.50C in dioxane-water medium (40%, v/v). The pH log rate profile has maximum at pH
4.17. The hydrolysis of mono-ester carried out in buffer solution shows that the neutral and mono
negative species are in pH 0.00 to 2.20 ranges and only mono negative species in the ranges of pH
2.20 to 7.46. The theoretical data rate determined from specific rates and fractions of the neutral and
mono negative species agrees closely with experimental rates. The biomolecular nature of hydrolytic
reaction has been supported on the basis of temperature and solvent effect study. The mono-2,4,5-tri-
methyl phenyl phosphate ester involves the P-O bond fission by isokinetic relationship. The reaction
mechanism has been proposed for the hydrolysis of mono-2,4,5-tri-methyl phenyl phosphate ester
with neutral and mononegative species.
56. Micellar effect of anionic of sodium lauryl sulphate on hydroxide ion with mono-2-methoxy
phenyl phosphoramide ester
30
Ravi Prakash1 and R. B. Singh2
1Department of Chemistry, B.S.A. College, Mathura,U.P.,India 2Department of Zoology, School of Life Sciences, Dr. Bhimrao Ambedkar University, Khandari
Campus, Agra,U.P., India
E-mail: [email protected]; [email protected]
Micellar catalysed reaction with hydroxide ion and mono phosphoramide ester of 2-methoxy
phosphoramide (2-MPPA) in sodium buffered solution at pH 8.0-10.0 with borate ions. The first order
rate constant for the reaction of hydroxide ions with 2-MPPA through maximum inhibited the
concentration of sodium lauryl sulphate (NaLS). The micelles of sodium lauryl sulphate are least
anionic detergent of NaLS and have little effect on the reaction rates.Anionic micelles strongly inhibit
the nucleophilic effect and have been investigated at 40 ±0.50C. The NaLS has been used to
determine the mol. wt. of micelles by light scattering and critical micelles concentration (CMC) by
several methods.
57. Synthesis and Ionic study of Clay Based Biocompatible Composite Polymeric Membrane
Kamlesh Pandey, Nidhi Asthana and Mrigank Mauli Dwivedi
National Centre of Experimental Mineralogy and Petrology,University of Allahabad, Allahabad
U.P.,India
E-mail: [email protected]
Biodegradable natural composite membrane systems have been extensively investigated since the
1970s in order to protect the environment from non-biodegradable plastic wastes. The use of synthetic
degradable polymers, as biomaterials imply they are biocompatible by themselves and the use of
particular additives and/ or processing technologies should not interfere with the biocompatible
behaviour. These materials have gained scientific and technological importance as electrolyte
materials for the development of solid state electrochemical devices such as batteries, fuel cells
electrochromic windows and supercapacitors. To overcome the environmental problem several eco
friendly and biodegradable materials such as cellulose, starch chitosan, poly(vinyl alcohol) and poly
(-caprolactone) are being used as a host polymer for the preparation of solid polymer electrolyte [5-
7]. Among biodegradable polymers poly(-caprolactone)(PCL), synthetic aliphatic polyester has been
getting a higher demand nowadays due to their numerous application. To enhance the electrical
conductivity plasticization is most effective method. In this process the low molecular weight
plasticizers such as propylene carbonate (PC) and Ethylene carbonate (EC) are incorporated in the
system. The lithium thiocyanate (LiSCN) is good dopant because it is thermally stable, nontoxic and
insensitive to ambient moisture as compared to other lithium salts, lithium can easily donate electrons
to become a positive Li+ ion. The MMT clay which is also called inorganic polymer has a laminar
structure and excellent hydrophilic and cations exchange properties.
Composite polymer electrolyte standing films were prepared following well known phase inversion
technique. In XRD pattern of PCL, three sharp characteristics peaks at 2 = 21.18°, 21.83° and 23.85°
show the partial crystalline phase, which originates from the ordering of side chains due to
intermolecular interaction through the hydrogen bonding. This structure confirms the semicrystalline
nature of PCL. Addition of clay (MMT) reduces the crystallinity of polymer salt composite system.
31
SEM image show the typical spherulitic texture along with dark boundaries, demonstrating its semi
crystalline nature. The addition of salt and filler in the polymer matrix disturb the homogeneity of the
host structure and it is favourable for facilitating the conduction path for ionic species. The Raman
spectrum of composite membrane confirms the interracial interaction of polymer matrix with salt and
filler. FTIR spectra show that all main peaks of the host polymer (PCL) are present in the pristine and
composite membrane. To evaluate the change in ionic behaviour of the electrolyte system with
temperature, variation of electrical conductivity (σ) with 103/T has been carried out. The increase in
conductivity of plasticized PCL with MMT membrane system is due to the release of surface
adsorbed water and the melting behaviour of the PCL polymer. the frequency dependence of
imaginary part of electric modulus M”() for the [0.3PCL + 0.7(EC+PC)] 40: MMT60 and
0.8{[0.3PCL + 0.7(EC+PC)] 40: MMT60} + 0.2LiSCN Electrolyte system at different temperature
was also studied.
58. Synthesis and characterization of EDTA functionalized silica coated magnetite nano-
materials as a nanosorbent in elimination of toxic metals from aqueous solution
Irshad Ahmad 1,2, Weqar Ahmad Siddiqui1 and Tokeer Ahmad2
1Department of Applied Science & Humanities, Faculty of Engineering & Technology, Jamia Millia
Islamia University, New Delhi, India. 2Nanochemistry Laboratory, Department of Chemistry, Jamia Millia Islamia University, New Delhi,
India.
The study for the preparation of magnetite (Fe3O4) nanoparticles of nonporous silica coated
magnetitenanoparticles based on the sol-gel process. By applying the surface modified molecularly
imprinted (MI) to form the EDTA functionalized silica coated magnetite nanomaterials used as an
adsorbent to eliminate the toxic metals from aqueous solution. The particle sizes reveal in the range of
20 nm calculated by X-ray diffraction method. XRD spectra revealed the cubic spinel nature of nano
particles and phase stability also. Monodispersity of the nanoparticles was confirmed due to the size
distribution of the particles by SEM analysis. The EDX study also clearly determined the elemental
ratio of EDTA functionalized silica coated magnetite nanoparticles. FT-IR spectral analysis revealed
that the successful grafting of –COOH functional groups from EDTA on the surface of silica coated
magnetite nanoparticles. Magnetic property was studied by VSM and the nanocomposites are found to
be super paramagnetic at room temperature. The functionalisation of EDTA on the surface of silica
coated magnetite nanoparticles provides –COOH group and –NH2 group to be bonded with toxic
metal ions from contaminated water by physico-chemical interaction process (physisorption and
chemisorptions). It was pragmatic that adsorption was pH dependent and adsorption mechanism
shows an ion exchange as well as electrostatic binding. Desorption investigates that acidic solution
was an efficient eluent with maximum percentage of heavy metal ions released by the nanosorbent
from the regeneration cycle. The desorption study as well as its reusability and recyclability were
accessible that indicates ferrite nanocomposites succeeding adequately.
59.Electrochemical behavior and analytical detection of pesticides using acetylchol in ester as
epolyaniline thin film
V.B. Deshmukh1, K.S. Paithankar1,U.N. Shelke1and V.K. Gade2
1Department of Physics HutatmaRajguruMahavidyalaya,Rajgurunagar,M.S. India
32
1Department of Physics Research Center,Ahmednagar College Ahmednagar,M.S.,India 2Department of Physics, ShriAnand College, Pathardi,M.S, India
Email:[email protected]
Polyaniline (PANI) film is synthesized by electrochemical method using FeCl3 as an oxidant to raise
conductivity. Electrolytic solution is made by H2So4. Acetylcholinestrase enzyme used for cross
linking detection of Triphinyl Phosphate (TPP) pesticide. Thin film is characterized by UV-visible
spectroscopy; FTIR and Conductivity also calculate band gap energy and results are analyzed. FTIR
spectra recognized the existence of polarons and bipolaronsin polymer samples.UV spectra showing
the absorptionpeaks due to π-π* transition of polyaniline.The electrical conductivity of the
synthesized film was measured by using four probe methods at room temperature.Indium Tin
Oxides(ITO) used as a working electrode, platinum foil as a counter electrode and Ag/AgCl as a
reference electrode.
60.Elemental assessment of the Sattu by direct current arc optical emission spectroscopy
Sweta Sharma, Aradhana Tripathi, AbhiSarika Bharti and K. N. Uttam
1Saha’s Spectroscopy Laboratory, Department of Physics, University of Allahabad, Allahabad,U.P.,
India
Email: [email protected]; [email protected]
In the current study, the phytoelements present in the sattu have been investigated with the help of
direct current arc optical emission spectroscopy and their concentration determined qualitatively. For
this, the sattu powders were procured from the local market of Katra, Prayagraj. A small quantity of
the powdered sattu was kept inside the cavity of the carbon electrode of the arc. The optical emission
spectrum of the sattu was recorded in the spectral region 200-700 nm at a resolution of 0.3 nm by
exciting sample with the help of direct current. The recorded spectrum shows spectral signature of the
elements potassium, magnesium, manganese, sodium, calcium, iron, and chromium thus confirming
the occurrence of these elements in the sattu sample. The role of detected elements has been discussed
in maintaining the human health.
61. Simultaneous multielemental analysis of the pointed gourd (parwal)by direct current arc
optical emission spectroscopy
Aradhana Tripathi1, Chhavi Baran2, Sweta Sharma1, Pavitra Tandon3 and K. N. Uttam1
1Saha’s Spectroscopy Laboratory, Department of Physics, University of Allahabad,
Allahabad,U.P.,India 2Centre for Environmental Science, IIDS, University of Allahabad, Allahabad,U.P.,India 3National Academy of Sciences India, Allahabad, U.P.,India
Email: [email protected]; [email protected]
The present study describes methodological work that exploits the utility of supremacy of the direct
current arc optical emission spectroscopy technique for the investigation of the elemental profile of
pointed gourd (parwal). The emission spectrum of powder sample of parwal has been recorded in the
spectral region 300-700 nm by exciting direct current under optimized experimental condition and
analyzed. The recorded spectrum shows persistent lines of calcium, sodium, potassium, iron,
33
manganese, magnesium, chromium and titanium with varying intensities and thereby confirming the
presence of these elements with different concentration in the parwal. Curve fitting analysis has been
used for the relative quantitative estimation of the elements present in parwal. The presence of
significant amount of chromium and magnesium in the parwal might be responsible for its anti-
hyperglycemic properties. In addition, the presence of copper and iron makes it useful for other
enzymatic and metabolic activities in humans.
62.Potential of direct current optical emission spectroscopy for the determinationof elements in
naturally mature grains of gram
Sweta Sharma, AshwaryAwasthi, AradhanaTripathi, AbhiSarikaBharti and K.N. Uttam
Saha’s Spectroscopy Laboratory, Department of Physics, University of Allahabad, Allahabad,
U.P.,India
Email:[email protected]; [email protected]
Pulse industry and its derived products have great economic and social importance worldwide as they
are an excellent source of protein, carbohydrate, fibres and minerals. Gram is a highly nutrition food
which provides number of health benefits. It has high protein content; it can easily be consumed by
vegetarians to fulfil their protein need. This necessitates the determination of nutrients profile in
pulses for the quality control. Direct current (d c) arc optical emission spectroscopy is a highly
efficient technique for the determination of nutrient profile of pulses and its derived products. The
direct current arc is free from sample digestion and is sensitive, reliable, inexpensive, user friendly,
eco-friendly, free from spectral interference having simultaneous multi elemental capability. The
present study explore the potential of direct current arc optical emission spectroscopy for the
assessment of the minerals present in the food samples particularly pulse: naturally mature grains of
gram. For this, emission spectrum of the powder of the gram has been recorded in the spectral region
300-900 nm excited by direct current at a resolution of 0.3 nm. The spectral data show the presence of
macro elements: sodium, potassium magnesium, calcium and micro elements: manganese, iron,
chromium and barium. The role of detected elements has been discussed towards the human health.
63. Investigation of phytochromes present in the petals of different cultivars of bougainvillaea
flowers by laser induced fluorescence and confocal Raman spectroscopy
Chhavi Baran1and AbhiSarika Bharti2
1 Centre for Environmental Science, Department of Botany, University of Allahabad, Allahabad,
U.P.,India 2Saha’s Spectroscopy Laboratory, Department of Physics, University of Allahabad, Allahabad,
U.P.,India
Email: [email protected]
Bougainvillaea also known as paper flower is an ornamental flower which has an immense value in
landscaping, pharmaceutical, cosmetic and environmental industries.Different cultivars of
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bougainvillea flowers are available having interesting colour combination, attractive appearance, size
and shape. The colour of the flowers is a function of plant pigments which is an attractive trait in the
floriculture market. Fresh supply of flowers in order to meet consumer needs necessitates the use of
automated cost effective and rapid techniques for flower sorting and grading. Optical probes like laser
induced fluorescence and Raman spectroscopy have recently appeared as highly efficient tools for the
non-destructive, extraction free, label free, rapid and simultaneous multi compound detection. These
probes can be applied for the on-site detection of biochemicals present in the biosamples. Realizing
the potential of optical spectroscopic probes, the present study aims at investigating the biochemical
present in different cultivars of bougainvillea flowers using Confocal Raman and laser induced
fluorescence spectroscopy.The confocal images and Raman signals have been acquired of theadaxial
surface of the flower petals in the spectral region 0-1700 cm-1.The analysis of the Raman spectrum
reveals that Raman signal appearing at the wavenumber region 1509-1530, 1225-1272 and 1550-1558
cm-1 has been identified as carotenoids, anthocyanins and flavonol glycoside while the signals
appearing in the spectral region 517-521 and 1336-1337 cm-1 have been identified as cellulose. The
laser induced fluorescence spectra of the bougainvillea flower petals have been acquired by exciting
405 nm laser in the spectral region 400-800 nm. The analysis of the fluorescence spectra reveals that
the petals have rich presence of fluorochromes like chlorophyll, carotenoids, flavonoids and
anthocyanins. The spectral signatures obtained in this study can be used by the planners and industries
for the effective use of bougainvillea flowers allied purposes.
64. Design of aReconfigurable Antenna for Agriculture, Medical, Defence and Communication
Applications
Abhishek Kumar Saroj, Devesh Tiwari, Mukesh Kumar, J. A. Ansari and Piyush Kumar Mishra
Department of Electronics and Communication,University of Allahabad, Allahabad, U.P.,India
Email:[email protected]
Design of a reconfigurable micro-strip printed antenna for agriculture, medical, defence and
communication systems for modern era. The main advantageous feature of this antenna is that it may
radiate on desired direction, frequency and pattern. This antenna also has properties to modify
frequency and radiation patterns. Today, radiation creates many environmental and biological issues
due to unwanted radiation from mobile phones and mobile towers. Reconfigurable antenna reduces
this hazardous radiation by radiating only particular direction and frequency. In this article a
microstrip printed antenna loaded with pin diode is proposed for agriculture, medical, defence and
communication systems applications. PIN diode distributes the current over radiating elements so that
reconfigurability nature achieved.
65. Eco friendly Synthesisof ZnO Nanoparticles using Leaf and Root extract of Smilax
asperaand the comparative assessment of their Antimicrobial and Antioxidant Activities
Aayasha Negi*,Devendra Singh Negi and Rahul Kumar Vishwakarma
Department of chemistry, H.N.B.Garhwal University(A Central university) Birla Campus, Srinagar
Garhwal, Uttarakhand,India
Email: [email protected], [email protected]
35
The endeavour of this research paper is to account for a novel, superficial green route scheme using
leaf and root extract of Smilax aspera as a reducing and capping agent. ZnO Nps were characterized
by UV–visible spectroscopy (UV), X-ray diffraction (XRD), Scanning Electron Microscopy(SEM),
Transmission Electron Microscopy(TEM). We investigated the antibacterial activity of ZnO NPs with
various concentrations against gram-positive and gram-negative bacterial strain using agar well
diffusion method in order to obtain MIZ values. Results revealed that the NPs had antibacterial
activity against two gram-positive and three gram-negative pathogens viz, Klebsiellapneumoniae,
Staphylococcus aureus, Streptococcus pneumoniae, Escherichia coli and Pseudomonas aeruginosa
correspondingly. Overall the experimental result suggests that ZnO NPs could be developed as an
antibacterial agent against a wide range of microorganisms to control and prevent spreading and
persistence of infectious agents.1,1-Diphenyl-2-picrylhydrazyl (DPPH) radical scavenging evaluation
was performed and it resulted in percentage inhibition in concentration-dependent manner.
66. The Development ofCyclooxygenase -1 AndCyclooxygenase-2 Inhibitors: AReview
Rahul Kumar Vishwakarma, D. S. Negi and Aayasha Negi
Department of Chemistry, H.N.B. Garhwal University (A Central University) Srinagar Garhwal,
Uttarakhand, India.
NSAIDs (Non-steroidal anti-inflammatory drugs) show its effect by preventing prostaglandin
synthesis which reasons the ulcer complication and mucosal damage all over the gastrointestinal tract.
World’s most accepted drug was aspirin for treatment of pain and inflammation without knowing that
it has ability to inhibit prostaglandin production by inhibiting the cyclooxygenase enzyme for
treatment of pain and inflammation, until the late 1970s. The discovery of cyclo-oxygenaseisoenzyme
(COX-1 and COX-2) and their distinct function leads the development of COX-1 and COX-2
selective inhibitors without any gastrointestinal toxicity. Initial intimations of a second form of the
cyclooxygenase (COX-2) which has different sensitivity for other drugs as like aspirin finally
accompanied in a stimulating period of cyclooxygenase inhibitor discovery, concluding in the
overview of an absolutely new generation of anti-inflammatory drugs. The aim of this paper is to
review the development of COX-1 and COX-2 inhibitors. This paper also reviews that, what are the
importance and history of natural product in treatment of inflammation as COX-1 and COX-2
inhibitor.
67.Guar gum inspired nickel oxide (GNiOc) Nanoparticle : Synthesis, characterization
andcatalytic evaluation
Shehala, Kirti Baranwal, Tulika Malviya and Vandana Singh
Polymer Research laboratory, Department of Chemistry, University of Allahabad, Prayagraj,
U.P.,India
Email: [email protected]
An efficient catalyst (GNiOc) synthesized using direct precipitation method using guar gum as
stabilizing agent. The synthesized (GNiOc) have been characterized using Fourier transformation
infrared spectroscopy (FTIR), UV-Visible spectroscopy (UV-Vis), X-ray diffraction (XRD), Brunauer
Emmet Teller (BET) surface area analysis, Scanning electron microscopy (SEM), Transmission
electron microscopy (TEM), and Thermal (TGA and DTA) analysis. The synthesized material
36
(GNiOc) act as an efficient catalyst for reduction of 4-nitrophenol (4-NP) (2 mM) using sodium
borohydride (0.1 M). The reaction was completed within 2 min when GNiOc (5mg) was used as
catalyst. GNiOc could be successfully recovered and reused for six repetitive cycles and even in the
sixth cycle; the reduction was completed in 18 min time. The reduction followed zero order kinetics,
the rate constant being 8 × 10-3mmol L-1 min-1.
68.Efficient Removal of Dye Methyl Orange and Rhodamine-B with Low Cost Banana Peel
Activated Carbon
Mahesh Kumar Gupta and P.K. Tandon
Department of Chemistry, University of Allahabad, Allahabad, U.P.,India
E-mail: [email protected]
Acid activated carbon obtained from cheap, non-toxic and locally available banana peelwas used as a
low cost efficient adsorbent for the removal of dye methyl orange and Rhodamne-B from the aqueous
solution.Changes in the resulting material before and after activation and after treatment were studied
by different techniques, such as SEM-EDX, XRD, FTIR measurements.Effects of duration of
treatment, amount of banana peel activated carbon, pH, and initial methyl orange and Rhodamne-B
concentration, on the removal of dyes were studied to get optimum conditions for maximum dye
removal. Removal efficiency of the activated carbon remains almost constant in a wide range of pH
from 2.5 to 5.6. It was observed that at room temperature the prepared material was able to remove
98.5% anionic dye methyl orange and 99.0% cationic dye Rhodamine-B in 75 min from contaminated
water having 10 ppm dye.
69. Size controlled synthesis of Aloevera nanoparticles by a simple nano-precipitation method
Tulika Malviya*, Praveen Kumar Tandon and Vandana Singh
Department of Chemistry, University of Allahabad, Prayagraj, U.P.,India
Email:[email protected]
This paper reports about the synthesis of Aloevera nanoparticles from spray dried Aloevera
polysaccharide by a simple nanoprecipitation method whereby particles ranging from 50 nm to 100
nm in size were formed. Dissolved Aloevera solution was added drop wise in to the excess of absolute
ethanol to yield Aloevera nanoparticles. The size and shape of Aloevera nanoparticles depend on the
amount of ethanol as well as the solvent and surfactant. The size and morphology of the particles have
been determined by electron microscopy studies. The aloevera nanoparticles were also evaluated to
study their role as an adsorbent for waste water treatment. Aqueous based solvent and non-solvent
systems were used in the easy and simple method of synthesis.
70.Cassia fistula seed gum-graft-poly(acrylamide): An efficient adsorbent for Reactive Blue
H5G dye
Devendra Narayan Tripathi
Department of Chemistry, University of Allahabad, Allahabad, U.P.,India
37
E.mail: [email protected]
Ceric ammonium sulphate/sodium disulphite redox system was used to graft poly(acrylamide) onto
Cassia fistula seed gum. The process conditions for obtaining the optimal % grafting (208 %) and %
efficiency (92 %) were: acrylamide = 0.16 M, ceric ammonium sulphate = 0.026 M, sodium
disulphite = 0.050 M, Cassia fistula seed gum = 25 mL (0.4 % (w/v)), and temperature = 40 ± 0.2 ºC.
CF-g-PAM has been characterized using FTIR and SEM studies. Cassia fistula-graft-
poly(acrylamide) (CF-g-PAM) could very efficiently capture “Reactive Blue (RBH5G)” dye from the
simulated dye solutions. The copolymer did not dissolve even under highly acidic pH conditions and
was able to remove 99.4 % dye from 100 mg L-1dye solution under the optimized conditions (pH= 2,
rpm = 150, adsorbent dose = 30 mg, temperature = 40 ºC, and contact time = 4 h). The isotherm
studies indicated that CF-g-PAM has heterogeneous surface sites and significantly high Qmax(500 mg
g-1) for the dye. The dye adsorption followed a pseudo second order kinetics (k’ = 5.3 x 10-3g. mg-1
min-1) indicating chemisorption of the dye is taking place.
71. Micro Nano Bubble (MNB) and Economical Approach towards Water Treatment
Pinisetti Swami Sairam and Jitendra K Pandey
University of Petroleum and Energy Studies, Dehradun, Uttarakhand, India
Email:[email protected]
Importance of entrepreneurship has been recognized in several developing countries. With several
growing challenges and crisis globally such as scarcity of potable water, increase in air pollutions,
irrigation of organic food and aquaculture etc. needs interventions of different sciences and
technology for identification of optimal solutions. One such solution towards the availability of water
is implementation of Micro Nano Bubble (MNB) technology for efficient removal of effluents and
pollutants. This technology has shown a potential in treating arsenic and coliform bacteria which are
the major pollutants and toxic agents causing skin cancer and waterborne disease. Unlike setting up
huge plants for water treatment which majorly consumes a large build space, MNBs technology
doesn’t require any build area and can be portable handheld device. These bubbles when generated
with use of different gases, decimate inside the water, resulting in effective treatment. This technology
when scaled for such applications can help fighting water crisis; maintain good water quality for
aquaculture and agriculture.
72.Evolution of fractal microstrip antenna for 5g wireless applications
Devesh Tiwari, A. K. Saroj, Piyush Kumar Mishra, Navendu Nitin, Mukesh kumarand J.A. Ansari
Department of Electronics and Communication,University of Allahabad, Allahabad, U.P., India
Email:[email protected]
The proposed work is used the fractal miniaturization technique for modern wireless
communications. The concept of fractal microstrip antenna is initially introduced in
mathematics. Due to high need of miniaturized antenna fractal concept is used for RF and
microwave technology. It gives the multi-band and wideband behavior along with high gain
and high bandwidth. It reduces size of antenna and increases its perimeter which can solve the
limitations of other microstrip antenna. Now fractal antenna technique is the main requirement
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for circuit design, therefore, the proposed design may be very much useful for modern wireless
communications.
73. Spin-Transition in FeIIN6 Complexes: Smart Material
Saleem Javed1 and R. Mukherjee 2.
1Dr. BhimraoAmbedkar University, Agra,U.P.,India 2Indian Institute of Technology, Kanpur, U.P.,India
Email: [email protected]
Six-coordinate FeII complexes, mostly those with an FeIIN6 coordination environment, may occur in a
paramagnetic high-spin (HS, S = 2) or diamagnetic low-spin (LS, S = 0) state depending on the
relative magnitude of crystal-field strength of the ligand and mean electron-pairing energy. For
intermediate ligand-fields, the energy gap between the excited HS state and the ground LS state may
fall in the range of thermal energy. Consequently, a reversible transition between the two states can be
induced by variation of temperature, pressure, or light irradiation. The phenomenon of spin-crossover
(SCO) between the low-spin (LS) and high-spin (HS) states is the most spectacular example of
molecular bistability. Although this energy gap can be tuned in a relatively predictable fashion by
varying the strength of the ligand-field, this is not the only factor upon which the existence and
character of a spin-transition depends. This phenomenon is very sensitive to packing effects in the
crystal lattice of the compounds, and entities such as lattice solvent molecules or counterions may
have a drastic influence on SCO properties of the material. Potential applications of SCO materials
are molecular switches, data storage devices and optical display units. During the past fifteen years
or so we have been engaged in this area of research with use of nonplanar N3 donor ligands. The
effect of nonplanarity of the chosen tridentate N3 ligands on the SCO properties of [FeII(L1/L5)2]2+
complexes has been identified and compared with that of the reported behavior of [FeII(L6)2]2+. In this
presentation an account of the effect of counteranion and sovent of crystallization on the spin-state
properties of [FeII(L4)2]2+ will be highlighted.
74.Intraction of Biologically active metal ions with cytidine 5- tri phosphate and nicotinic acid.
Brajesh Kumar Shukla and Vijay Krishna
Department of Chemistry University of Allahabad, Allahabad, U.P., India
Equilibrium study on the mixed ligand complex formation of Cu(II),Cd(II)with Cytidine5'triphosphate
and Nicotinicacid, under experimental conditions (constantionicstrengthI=0.1mol/dm3,at37±0.10C)
and potentiometric pH titrations were carried out to determine the stabilities of the binary (1:1) and
ternary (1:1:1)complexes,withM(II)=Cu(II),Cd(II)bivalent metal ions, where these lf-association of
thecytidine5'- triphosphates(CTP) isnegligible. The percentage of species distribution curves have
been demonstrated with the help of ORIGIN6.1software. Stability constant have been determined
through the method suggested by Irving & Rossetti and further refined through Stability Constant of
Generalized Species (SCOGS) computer program. Species distribution curves of complexes have
39
been plotted as a function of pH. The mixed ligand (1:1:1) ternary complexes were occurred
simultaneously in most cases generally at high pH with gradually declination of binary complexes of
particular metal complexes.
75.Preprogrammed Multiway Workbench- An experimental study using ultrasonic sensors with
the help of microcontroller
Reetu Malhotra, Aashish Goyal, Mridula Batra, Gitish Bhusri and Ritvik Bansal
Chitkara University Institute of Engineering and Technology, Chitkara University, Rajpura,
Punjab,India
Email:[email protected],[email protected]
This study aims to find the ultimate solution for the table to be used by different kindsof people, such
as a healthy kid, young, old, and physically disabled. People face problems while using the table of
inappropriate height. Especially, physically disabled people are unable to cope with healthy while
doing regular work due to height constraints. Using a human-centered design approach, the authors
create a design process based on field research and catering to local needs to develop a suitable
product for users in a developing country. So, the authors introduced a table, which has a motorized
height adjusting mechanism. Ultrasonic sensors detect the user's height and height of the table
adjusted as per the height of the user.
76. A design and working of automatic shoe polishing machine with yarn brush
ArshdeepKaur and ReetuMalhotra
Chitkara University Institute of Engineering and Technology, Chitkara University,
Rajpura,Punjab,India
Email: [email protected]
The paper aimed at challenging the drawbacks of operating conventional shoe polishing machines and
the task of employing a new and significantly efficient method to serve the purpose. With this
objective in mind, an automatic portable shoe polishing machine is designed, which makes the use of
yarn brush. The need to wear clean and lustrous shoes can be felt at any organisation such as schools,
offices, laboratories etc. To do away with the tedious task of cleaning shoes manually on an everyday
basis, this machine facilitates the clients to accomplish this task within a comparatively shorter
duration and with greater efficiency with negligible human effort. The machine is designed with great
intricacy, ensuring no damage and long term utility. In this, the use of IR sensors was made for the
purpose of automation.
77.Doko – A Smartphone Application for Effective Parking lots at Hypermarkets and Grocery
Stores in Urban Areas
Sreedevi S and Reetu Malhotra
Chitkara University Institute of Engineering and Technology, ChitkaraUniversity, Punjab,U.P.,India
E-Mail:[email protected]
40
This paper gives a brief description of the Smartphone Application and an Arduino-Based circuit.
Objective of the project is to improve the Parking Mechanism at hypermarkets, grocery stores or
departmental stores. Car parking is a major problem in urban areas in both developed and developing
countries. Following the rapid incense of car ownership, many cities are suffering from lacking of car
parking areas with imbalance between parking supply and demand which can be considered the initial
reason for metropolis parking problems. We have developed an android based application which is
user friendly. We have also made an Arduino circuit which will be placed at the parking slot to let you
know if it’s vacant or not. An online server for the application is purchased so as to send information
when a car is parked. We have developed wifi based system for local and server based system if not
local in urban areas.
78.Mathematical Modelling of a Problem in Physiology
Jagadis Chandra Misra
Indian Institute of Engineering Science and Technology, Shibpur, West Bengal, India
Email: [email protected]
Importance of mathematical modeling in studies pertaining to the fluid dynamical behavior of
physiological systems will be first discussed during the presentation.. This will be followed by brief
discussions on several related topics, including the prospect of mathematical modeling in different
domains of life sciences and the various types of mathematics that have been applied so far in solving
various problems of physiology. The last part of the presentation will be devoted to an illustration, by
considering a relevant mathematical model of physiological flow of blood through arteries. This will
consist of the formulation and analysis of the problem, along with computational results, based on our
recent research.
79. Kinetic study of some active methylene compound with Isoquinoliniumbromochromate in
acetic acid medium
H.P. Dwivedi1,PraveenaShukla1 and H.D. Gupta2
1Department of Chemistry, S.G.S. Govt. P.G. College Sidhi,M.P.,India 2Department of Chemistry, T.R.S. College, Rewa, M.P.,India
E-mail: [email protected]
The kinetic study of active methylene compound such as acetyl acetone, benzoyl acetone, ethyl aceto
acetate and malinic aster by isoquinoliniumbromochromate in acetic acid water medium have been
carried out by employing the following chemicals. The oxidation follows first-order kinetics with
respect to oxidant (IQBC) when study was switched on at five times variation of IQBC. The reaction
rate gradually increases at lower but regards at their higher concentrations, showing fractional-order
kinetics with respect to substrate. The reaction velocity accelerated with increasing, the unit slope of
linear graph made between log k and log [H+] furnishes evidence that reactions are acid catalysed and
order of reaction with regards to [H2 SO4] is unity. The isokinetic plot of ∆H# versus - ∆S# is linear
with isokinectic temperature (ß) = 403 K suggesting specifically that the reaction are enthalpy
controlled. The enol reaction products of the reaction were identified the reaction mechanism, rate law
and reactivity was explained based on thermodynamic parameters.
41
80.Reusing of stone waste in various industrial activities
Rekha Rani Agarwal, Renu Sharma and Raghavendra Patidar
Global Institute of Technology, Sitapura, Jaipur, Raj.,India
E-mail: [email protected]
In recent years, large amounts of stone waste have been generated in natural and artificial stone
industry with significant environmental impacts. To solve the problems, stone waste in different forms
could be used in different industrial activities in particular construction industry and other activities
such as paper, ceramics industry, paints, plastics and polymers, glass, rubber, sugar, pharmaceutics,
tectiles or in articles such as soaps or candles. Further it could be applied as agriculture soil
corrective,acid water treatment and dumpsites sealing. For the countries with a developed stone
industry the waste generated in the natural stone processing plants pose environmental and economic
problems. The utilisation of stone waste in various areas is still under research. In addition, there are
only a limited number of studies concerning the use of stone waste obtained from processing plants in
the stabilisation of clayey soil. This is the study that compares the efficiency of the waste calcitic
marble, dolomitic marble and granite powder as additives for the stabilisation of clayey soil. Artificial
soil samples were prepared in the laboratory using bentonite and kaolinite.Natural stone waste powder
was added to the soil samples at different percentages, and the index and compaction parameters of
the stabilised soil were analysed. The results showed that the types of waste powder used in this study,
like lime, could be used as stabilisers. As the percentage of additives increased, the plasticity index of
the clayey soil decreased and the physical properties of the soil changed from clay to silt.
82.Transformational change of Information Technology & Knowledge Networks
Naveen Kumar Srivastava
The National academy of Sciences, India
E-mail: [email protected]
The 20th century onward experienced a transformational change in the field of Information
Technology and the storage of information. The rapid development in the field of Science &
Technology created an atmosphere of cloud computing as well as another space-cyber space. Several
countries including India also put their geo stationary satellite in the earth orbit making it possible to
receive and transmit the information from the one corner of the globe to the other; so the various
fields of Science encashed the opportunity of such advancement.
The library & information Science also embarked upon the use of aforesaid technologies for the
storage and dissemination of a vast database and several domains were created, softwares developed,
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networking done to facilitate the readership for quick access of the information, as NKN & other
networks.
This paper deals with the bibliography of such networks and domains, their accessibility and salient
feature to facilitate the researchers with the advancements in Library & Information Science.
83. One pot microwave induced synthesis, characterization and antibacterial activity of tetraza
macrocyclic complexes of transition metal ions of bio-inorganic relevance
Devendra Kumar and Saraswati
Department of Chemistry, Institute of Basic Sciences, Dr. Bhimrao Ambedkar University, Khandari
Campus, Agra-282002
Email: [email protected]
Two new series of metal complexes, [M(C18H16N4O4).2H2O] (CH3COO-)2and [M(C22H24N4).2H2O]
(CH3COO-)2, where M= Co+2/ Ni+2/ Cu+2, have been prepared under microwave irradiation condition
using microwave synthesizer. All the synthesized compounds were characterized by melting point
determination of recrystallized samples, running single spot on TLC, elemental analyses, IR, UV-
visible spectral studies. Synthesized macrocyclic complexes have been tested for their antibacterial
activity against two bacteria Klebsiella pneumoniae and Escherichia coli by adopting Disk diffusion
method. The antibacterial activity was compared with Amikacin antibiotic and it has been found that
the complexes exhibited potential antibacterial activity. From the antibacterial studies it has been
found that the copper complexes were more effective on the microorganism in comparison to Ni and
Co complexes.
84.Benefits of Yoga (Pranayama) in carving Mathematics Anxiety
Ashish Kumar Srivastava
Anglo Bengali Inter College, Prayagraj,U.P.,India
E-mail: [email protected]
The purpose of this study is to identify how the theory and techniques of yoga and pranayama can be
applied to reduce the stress of students in studying Mathematics.
Yoga is an ancient Indian science which helps to improve physical, mental, social and spiritual health.
There is a need to show that yoga is not merely an exercise system but it has many more health
benefits. The special features of pranayama are: relaxation of the body and mind, complete filling and
emptying of the lungs and activation of silent areas of nervous system. Research is needed to
understand the mechanism of action of yoga and pranayama in students to reduce stress and physical
disorder in studying maths.
Many children have less interest in mathematics and find learning mathematics very difficult, causing
math anxiety, and leading to poor performance in mathematics .This study aimed to compare methods
of reducing such stress , physical disorder and improving cognitive skills using pranayama and asana.
43
Introducing children to stress-reducing techniques of yoga and pranayama offers great potential
benefit.
Improvement in academic performance and alertness has been reported in several yogic studies. When
a student performs a steadying series of asana and pranayama, their emotions are steadied, negative
thoughts tend to decrease. Problem-solving abilities and mental efficiency improves.
Two month of practice of asana and pranayama brings a feeling of well-being, reduction in
indiscipline, nervousness and improvement in memory.
85. Method Development and Validation for Thiomethaxam and λ-Cyhalothrin in mixed
suspension concentrate (SC) Formulation by High Performance Liquid Chromatography
(HPLC)
Vinod Kumar, Anil K. Verma, L.K.Thakur and Jitendra Kumar
Analytical Division, Institute of Pesticide Formulation Technology, Sec. 20, Udyog Vihar
Gurugram – 1220016, Haryana,India
E-mail: [email protected]
Thiamethoxam is a second generation neonicotinoid insecticide belonging to the thianicotinyl
subclass of chemistry and possesses unique chemical properties. Thiamethoxam offers growers
additional benefits beyond broad-spectrum insect protection1. The increased vigor is evidenced by
faster emergence, greater plant stands, increased root mass, earlier canopy, taller and greener plants
and improved quality.λ-Cyhalothrin is a mixture of highly active isomers of cyclothrin2.It is a non-
systemic insecticide. It acts on the nervous system of the insects by disrupting the function of neurons
by interaction with the sodium channel. In present study, a sensitive method has been developed for
the determination of Thiomethoxam and λ-Cyhalothrin for mixed SC formulation by HPLC. The
analysis was performed at room temperature, using Dionex Ultimate 3000 with Photo Diode Array
(PDA) detector at 265nm. The separation was carried out by RP-18 column having 250mm × 4.6mm
(i.d.) and 5 µm particle size. The mobile phase was used acetonitrile:water (60:40, V/V) at flow rate
of 1 ml/min and the total run time was 10 minutes. In this combination, due to high sensitivity of
Thiamethoxam, the peak of λ-Cyhalothrin is not shown in same injection. In this study, we inject the
sample two times, after detection of Thiomethoxam peak further inject the sample with addition of 5
min cut time in method. Instrument calibrated at five concentration levels with regression coefficient
(R2) value 0.998. Limit of Detection (LOD) of Thiomethoxam and λ - cyhalothrin pesticide varies
from 0.1-1.0 ppm, Limit of Quantitation (LOQ) from 0.5-7.0 ppm andthe RSDs not less than 2%.
Validation studies shows that this proposed method is simple, specific, rapid, reliable and
reproducible.The proposed method is time saving and easily applied for the analysis of active content
for mixed SC formulations.
86. Effect of alumina Nanoparticles in fire resistant Nano composite coatings
Prathipati Revathi1, Tentu Nageswara Rao2and K.SuneelKumar3
1Department of Chemistry, Krishna University, Machilipatnam, Andhra Pradesh, India. 2School of Materials Sciences and Engineering, Changwon National University, South Korea. 3Department of Biotechnology, Periyar University, Salem, Tamil Nadu, India.
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E-mail: [email protected]
Alumina nanoparticles were prepared by sol gel method and characterized by using SEM
XRD, FTIR and TEM. Epoxy resin nanocomposites reinforced with alumina nanoparticles
have been prepared at four different formulation levels having F0(Without adding
nanoparticles), F1(2% w/w Alumina), F2(4% w/w Alumina) and F3(6% w/w Alumina)
combination with epoxy resin/hardener, ammonium poly phosphate, boric acid and
milamine,~56:15;15:14 w/w% via slow string method. After homogenization of the
formulation epoxy nanocomposite coatings were dried at room temperature upto 6 days to
convert as solid. The improved glass transition temperature (Tg) and enhanced mechanical
properties of the cured epoxy resin nanocomposites filled with the functionalized alumina
nanoparticles are observed compared with those of the cured pure epoxy resin formulation.
The flammability and thermal stability behavior of these nanocomposites are evaluated using
thermogravimetric analysis (TGA). The heat release rate (HRR) peak of the epoxy filled with
functionalized alumina nanoparticles is observed to decrease dramatically with increasing
functionalized alumina particle loadings. An increase in the LOI value was observed with the
increase in wt% of alumina nanoparticles. From the UL-94V data, it was confirmed that the
F-1, F2 and F-3 composites were pass the flame test and were rated as V-0.
87.Calcium–AnImportant Mineralfor Women
Rashmi Sinha1 and Kumar Kaushlendra2
Department of Mathematics, M. M. Mahila College (V. K. S. University, Ara)1
Department of Chemistry, Jagjiwan College, Ara2
Email:[email protected]
Calcium is the most abundant mineral in the human body, with over 99% of the amount present in the
bones and teeth. For the growth and maintenance of healthy bones it is essential that we have
sufficient calcium intake, otherwise we are at risk of developing osteoporosis when calcium leaching
is not balanced by dietary ingestion. But calcium is not only important for the skeleton; it also has a
role to play in nerve function, blood clotting, muscle health, and other areas. While calcium is the key
mineral for both sexes it is especially important for the health of women.
88. A Studyof Systemof Simultaneous Differential Equationswith Concerning Wronskian
Ashwani Kumar Sinha1andRachit Ankesh2
Department of Mathematics, M. M. Mahila College (V. K. S. University, Ara)1
Departmentof Power Electrical Engineering, Yadavpur University, Kolkata2
Email:[email protected]
A system of simulations differential equations in terms of three components of a vector and
containing three parameters has been considered. Wronskian and bilinear concomitant for the
system have been studied. Existence of union solution has been proved.
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89. A studies of transformation in Sequence of Fourier Coefficients concerning Aspects
Rachit Ankesh1 andAshwani Kumar Sinha2
Department of Power Electrical Engineering, Jadavpur University, Kolkata 1
Department of Mathematics, M. M. Mahila Colleg (V. K. S. University, Ara)2
Email:[email protected]
In the present note a result regarding the , summability of a sequence has been
obtained which is a generalization of several known results.
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