1

Curriculum vitae

SUDDHASATWA BASU (http://web.iitd.ac.in/~sbasu) Telephone: 91-0674-237 9400 (O)

Director, CSIR-IMMT, Bhubaneshwar 91-0674-2467126 (O) / 2567456 (Res.)

Professor and Former Head (on lien) Mobile: 7838134181

Department of Chemical Engineering e-mail: sbasu@immt.res.in; sbasu@iitd.ac.in;

Indian Institute of Technology, Delhi drsbasu@gmail.com

DOB: 5 Jan, 1963 ORCID id: orcid.org/0000-0001-7288-2370

www.researchgate.net/profile/Suddhasatwa_Basu

Education Ph.D*. 1993 Chemical Engineering Indian Institute of Science, Bangalore

(*MS converted to Ph.D. program)

B.Tech+. 1987 Chemical Engineering University of Calcutta

Honours and Awards

Herdillia Award, Excellence in Basic Research in Chemical Engineering, IIChE 2016

Dr A. V. Rama Rao Foundation's Best PhD Thesis and Research Award in Chemical Engineering/Technology For

The Year 2016 Jointly Awarded to Prof S. Basu And His Student Dr Jyoti Goel, For Their Work on Anode Catalyst

Development for Direct Ethanol PEM Fuel cell

Research Excellence Award, The Indus Foundation Inc., USA and India 2016

Fellow of The National Academy of Sciences, India (NASI), 2015

Best paper award in Int Conf of Electrochem Soc of India, IISc Bangalore, Aug 7-9, 2014

ISEAC Journal publication award 2012 – 1st prize publication in peer reviewed international journal

Prof. R. D. Desai 80th Birthday Commemoration Medal & Prize, 2012, Indian Chemical Society

Fellow of Indian Chemical Society, 2012

Prof. Bal Krishna Memorial lecture - International Year of Chemistry, 48th Convention of Chemists, Indian Chemical

Society, Dec 4, 2011

Fellow of Institute of Engineers, 2011

FITT award for best M.Tech./Ph.D. thesis 2010; Rs 40,000/- prize money shared with student A. Awasthi

Distinguished Alumni Award, Dept of Chemical Engineering, Calcutta University, 2010

Visiting Fellow, Royal Soc., UK, Univ. of Newcastle upon Tyne, UK, 2008

DAAD faculty Research award on Fuel cell Tech., Univ. of Karlsruhe, Germany 2006

Visiting Prof./Sci Department of Chemical Eng., Univ. of Newcastle, Australia, 2005

Visiting Prof., Department of Chem. & Mat. Eng., Univ. of Alberta, Canada 2000, 2002

Best paper in Energy Engineering session: Verma, A., Singh, K. V. and Basu, S*., “Studies on alkaline fuel cell”

56th Annual session of IIChE, Chemcon 2003, Bhubaneshwar, Dec 19-22, 2003

Best paper in Transfer Processes: Basu, S*., Sinha, S. N., and Nigam, K. D. P.,” The effects of surfactants on

adhesion, spreading, and retention of fungicide droplet on the surface of the leaves and seeds”, Chemcon 2002,

Hyderabad, Dec 19-22, 2002

Work Experience

Director CSIR-IMMT, Bhubaneshwar, Feb, 2018-present (on lien from IIT Delhi)

Professor (HAG, on lien): Dept. of Chem. Eng., IIT Delhi, New Delhi (2008 – present); Head of

Chem. Eng. Dept (2012-2015); Assoc Dean R&D, IIT Delhi (2016 - Jan, 2018)

Assoc. Prof.: Dept. of Chem. Eng., IIT Delhi, New Delhi

(2005-2008)

Asst. Professor: Dept. of Chem. Eng., IIT Delhi, New Delhi

(1998 – 2004)

2

Postdoctoral Research & Teaching Faculty: Dept. of Chemical & Material Eng., University of

Alberta, Edmonton, Canada (1994 –1997) Research: Oil Sands Technology; Teaching: Process

Sim & Num. Tech.

Administrative work:

Teaching Experience and Courses Developed

Graduate courses:

1. Electrochemical Conversion and Storage Devices (CLL722) (New course) 2. Hydrogen Energy & Fuel Cell Tech (CLL723)

3. Design of Separation Processes. (CLL735)

4. Numerical Technique in Chemical Engineering (CHL711)

Undergraduate :

1. Fluid Mech. (CHL130)

2. Fluid Particle Mech. (CHL331)

Research Interest

Electrochemical storage and Renewable energy source: Fuel Cell – PEMFC, DAFC, AFC, SOFC, Hydrogen

generation, battery, super-capacitor

Interfacial & Electro-Chemical Eng. and Micro-Fluid Mechanics and their application in micro fuel cell,

artificial photosynthesis, CO2 reduction & chemical fuel, Bio-sensing – dopamine, glucose, ethanol.

Sponsor Research Project / Consulting as PI

1 lac = 1,00,000; 1 Crore = 1,00,00,000.00 1; 1 US$ = Rs 65

No. Title Funding Agency Amount

(Rupees)

1 Model development for the removal of mobile oil from

the solid substrates in the presence of surfactants

(1999-2001)

Unilever Research 4.2 lacs

2 Development of direct ethanol fuel cell (2002– 06) MNES 27 lacs

3 Oil droplet detachment from solid substrate in shear

field – application in EOR (2004-07) DST 20 lacs

Sl

No.

From - To Name of the Organization Position

1 Feb 9, 2018-present CSIR-IMMT, Bhubaneshwar Director

2 Aug 2016- Feb 8,

2018

I.I.T. Delhi Associate Dean, Research &

Development

3 2012-2015 I.I.T. Delhi Professor and Head of

Chemical Eng. Dept.

4 2012-2015 Indian Institute of Chemical

Engineers, Northern Regional

Centre

Chairman

5 2003-2006 I.I.T. Delhi Secretary, Department Research

Committee

6 2004-2009 Indian Institute of Chemical

Engineers, Northern Regional

Centre

Secretary

3

4 Aggregation & sedimentation of dispersed clay

particles in the presence of surfactants (2005-06) IITD Thrust Area 6.0 lacs

5 Workshop on Recent Challenges in Fuel Cell

Technology: India’s Perspective (2006-07) DST 5.3 Lacs

6. Development of direct alcohol fuel cell test centre and

test protocols (2008-2011) MNRE 85.61 lacs

7 Hydrogen generation by electrolyses of water (2008-

2011)

Using high temp PEMWE (Shared with Prof. Keith

Scott of Newcastle Univ. upon Tyne)

UKIERI-DST

(Shell Hydrogen

Corporate Champ)

£ 42354.00

8 Is CO2 sequestration possible through electrochemical

route to generate organic compounds? (2009-2012)

KFUPM, Saudi

Arabia

Riyal

214,000.00

9 Scope of Fuel Cell Tech in India 2009 NEDO Japan Rs 5.5 lacs

10 Direct Glucose Fuel Cell (2009 –2013) DST Rs 40 lacs

11 Direct hydrocarbon SOFC (2008-2011) MNRE Rs 46 lacs

12 Transference number measurement of GDC and SDC

(2011-2014)

CSIR 12.5 lacs

13 Low Temperature solid oxide electrolyzer for

conversion of CO2 to organic compounds (2012-2014)

UKIERI 16 lacs

14 Electrocatalyst for PEM water electrolyzer (2011-2013) ISRO 22.5 lacs

15 Non-silicon based technologies for nano fabrication

and nano scale devices. (One out of eleven PIs/CO-

PIs); Nano Research Facility, IITD (2010-2017)

MCIT 49.25

Crores

16 Solar energy based multifunctional device with

integrated holographic, photovoltaic and photo-electro-

chemical cells. As PI with four Co-PIs (2011-2014)

DST 3.92 Crores

17 Mind the Gap’ – jumping the hurdles limiting polymer

fuel cell performance and commercialisation.

Collaborative project with Imperial college, UCL,

Newcastle Univ, IITM, CFCT, Chennai (2012-2015)

RCUK-DST 92 lacs (For

IITD)

18 Development of novel electrochemical catalyst for solid

state electrochemical reduction of carbon dioxide into

hydrocarbons. (2014-2016)

GAIL 68 lacs

19 Novel Anode nanaocatalysts and electrolyte for ethylene

glycol as fuel for fuel cells (2014-2017)

GITA (Indo-Taiwan

Project)

22.5 lacs

20 Electrochemical characterization metal and molten

metal based anode for SOFC (2015-16)

Alfaisal University /

Robert Gordon

University, UK

2.05 lacs

21 Multi-Functional Nanocomposite Materials for Low-

temperature Ceramic Fuel Cells (Collaborative project

with Finland, Norway, Turkey, Portugal and India)

(2014-2017)

New Indigo (EU-

DST)

53 lacs

22 Development of direct hydrocarbon solid oxide fuel cell

(2015-2018)

DRDO 1.32 crores

23 ‘Anode development for direct hydrocarbon solid oxide

fuel cell’ (2015-2017)

UKIERI 24.99 lacs

24 Scale up of Direct Hydrocarbon SOFC for ONGC Well

Head (2016-2019)

ONGC 2.54 Crores

4

25 Improvement of Electrolytic Gold Refining Process through

Optimum Current Efficiency for Gold Deposition and Gold

Recovery from Effluent (UAY project scheme)

MMTC-PAMP and

MHRD and

Ministry of Mines

Rs 94.25

lacs

26 CO2 Reduction to Organic Compounds in Solid Oxide

Electrolysis Cell – II Phase GAIL R&D 67 lacs

Editor

Associate Editor, Wiley Interdisciplinary Journal, WIREs: Energy and Environment (2011-present)

Editor, Special Issue of Int J Hydrogen Energy, 36(22), 2011, Elsevier

Editorial board, Indian Chemical Engineer, quarterly Journal of Indian Institute of Chemical

Engineers, 2008 – present (former Editor, 2006-2007); published by Taylor & Francis

Editor, Spl Issue, Chemical Engineering Sciences, Electrochemical Storage Systems, Elsevier, 2016

Editor, Global Challenges Energy and Environment, Wiley Inc. 2015 – present

Editorial Advisory Board, Ionics Journal published by Springer- Nature

Editorial Advisory Board, ACS Omega, American Chemical Soc.

Book/Book Chapter/Monograph Published

Ayan Mukherjee and Suddhasatwa Basu Direct Hydrocarbon Low-temperature Fuel Cell (Ch 4) in

Electrocatalysts for Low Temperature Fuel Cells - Fundamentals and Recent Trends, Ed.

Viswanathan, Elsevier (2017)

Smita S. Kumar, Sandeep K Malyan, Amit Kumar, Suddhasatwa Basu and Narsi R. Bishnoi

Microbial Fuel Cells Technology: Food to Energy Conversion by Anode Respiring Bacteria (Ch 2)

in Environmental Concerns of 21st Century: Indian and Global Context, Ed. Sanjay Kumar, Masroor

Ahmed Beg, Book Age Publications, pp.13-29, 2016 ISBN 978-93-83281-65-7

Neetu Kumari, M. Ali Haider and Suddhasatwa Basu, Mechanism of Catalytic and Electrocatalytic

CO2 Reduction to Fuels and Chemicals (Ch 2) in Electrochemical Reduction of Carbon Dioxide:

Fundamentals and Technologies, Ed. Jinli Qiao, Yuyu Liu, Jiujun Zhang, CRC Press 2016

Suddhasatwa Basu, Proton Exchange Membrane Fuel Cell Technology: India’s Perspective in

Energy Material, in Science Based Technologies for Sustainable and Adequate Energy for India, Ed.

I. Manna, B. Raj, K. Mudali, Proc Indian Natn Sci Acad 81(4), September 2015 pp. 865-890

Surya Singh, Anil Verma, Suddhasatwa Basu, ‘Oxygen Reduction Non-PGM Electrocatalysts for

PEM Fuel Cells – Recent Advances’ (Ch 5) in Advanced Materials and Technologies for

Electrochemical Energy, Ed P. K Shen, C. Wang, X. Sun, S. P. Jiang, and J. Zhang, CRC Press

(2014)

Basu, S., Chokalingam, R., ‘Ceria based electro-ceramic composite materials for solid oxide fuel

cell application’ (Ch 10), In Advanced Organic-Inorganic Composites: Materials, Device and Allied

Applications, Ed. Inamuddin Siddiqui, Nova Science Publications Inc., N.Y. 2011

S. Basu (Ed.), Recent Trends in Fuel Cell Science and Technology, Springer, New York (2007)

(apart from editing the book contributed two chapters)

Cited 227 times

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Basu, S., Fuel Cell Technology in India’s Roadmap to Hydrogen Economy, Ed. T. K. Roy and P.

K. Mukhopadhya, Indian National Academy of Engineering, 2006

Basu, S., Report on Challenges in Fuel cell Technology: India’s Perspective, Dec 1 & 2, 2006, New

Delhi (DST)

Patent

i.Title: An Improved Process for De-dyeing of Liquid Waste,

Inventor: Suddhasatwa Basu, IIT Delhi, Copy right: IIT Delhi,

Patent granted: No #271063; DEL/377/2003

ii.Title: Direct Ethanol /Methanol alkaline fuel cell

Inventor: Suddhasatwa Basu, IIT Delhi, Copy right: IIT Delhi, Patent: 1139/DEL/2010

(Technology bought by Pune based company, Anshuman Tech Pvt Ltd)

iii. Title: A composite electrocatalyst for CO2 reduction through electrolysis

Inventor: Neetu Kumari, Suddhasatwa Basu, Ali Haider, T. P. Yuvraj, R.K. Kashyap; Copy right:

IIT Delhi, Patent Application No.: 201611039740

iv.Title: Regeneration of carbon monoxide poisoned anode catalysts in proton exchange membrane fuel

cells, Inventor Harikrishnan, Suddhasatwa Basu, copy right: IIT Delhi

Patent Application No.: 201611043064

v. Title: Microfluidic chip for neurotransmitter detection, Inventor Appan Roy Chowdhury,

Suddhasatwa Basu and Sandeep Jha; copyright IIT Delhi Patent Application No 201811000669

Journal Publications

S.N. Journal Citation &

Source: Scopus

Journal Impact Factor & Publisher

1. Tayal, J., Rawat, B., S. Basu, Effect of Addition of Rhenium to Pt-based Anode Catalysts in Electro-oxidation of Ethanol in Direct Ethanol PEM Fuel Cell, Intl J. Hydrogen Energy 37(5), 4597-4605 (2012)

59 IF=3.66 Elsevier

2. D Basu, S Basu, Performance studies of Pd–Pt and Pt–Pd–Au catalyst for electro-oxidation of glucose in direct glucose fuel cell Intl J. Hydrogen Energy 37 (5), 4678-4684 (2012)

56 IF = 3.66

3. J Tayal, B Rawat, S Basu, Bi-metallic and tri-metallic Pt–Sn/C, Pt–Ir/C, Pt–Ir–Sn/C catalysts for electro-oxidation of ethanol in direct ethanol fuel cell, Intl J. of Hydrogen Energy 36 (22), 14884-14897 (2011)

106 IF=3.66 Elsevier

4. D Basu, S Basu, A study on direct glucose and fructose alkaline fuel cell, Electrochimica Acta 55 (20), 5775-5779 (2010)

76 IF=4.5; Elsevier

5. A Verma, S Basu, Direct alkaline fuel cell for multiple liquid fuels: Anode electrode studies, J. of Power Sources 174 (1), 180-185 (2007)

72 IF = 6.227; Elsevier

6. A Verma, S Basu, Experimental evaluation and mathematical modeling of a direct alkaline fuel cell, J. of Power sources 168 (1), 200-210 (2007)

85 IF = 6.227; Elsevier

7. A Verma, S Basu, Direct use of alcohols and sodium borohydride as fuel in an alkaline fuel cell, J. of Power Sources 145 (2), 282-285 (2005)

122 IF = 6.227; Elsevier

Best 10 papers in Journal - total citations = 940 ; H-index= 29; One published Book cited = 238

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8. A Verma, AK Jha, S Basu, Manganese dioxide as a cathode catalyst for a direct alcohol or sodium borohydride fuel cell with a flowing alkaline electrolyte, J. of Power Sources 141 (1), 30-34 (2005)

123 IF = 6.227; Elsevier

9. P Pandit, S Basu, Removal of ionic dyes from water by solvent extraction using reverse micelles, Environ Sci & Technol 38 (8), 2435-2442 (2004)

95 IF=5.33 American Chemical Society

10. P Pandit, S Basu, Removal of organic dyes from water by liquid–liquid extraction using reverse micelles, J. of Colloid and Interface Sci. 245 (1), 208-214 (2002)

62 IF=3.37 Elsevier

Books.

11. S. Basu (Ed.), Recent Trends in Fuel Cell Science and Technology, Springer, New York (2007) (contributed two chapters)

238 Springer, N.Y.

1. Appan Roy Chowdhury, Arneish Prateek, Suddhasatwa Basu, Sandip K Jha, Preparation and

characterization of reduced graphene oxide supported nickel oxide nanoparticles based platform for

sensor applications, J Nanoparticle Res (accepted) 2018

2. M. Merajul Islam, Rama D. Tentu, and Suddhasatwa Basu, Synthesis of g-

C3N4/ZnGa1.9Al0.1O4Heterojunction UsingNarrow and Wide Band Gap Material for Enhanced

Photoelectrochemical Water Splitting, Chemistry Select 3, 486-494 (2018)

3. Nimai Bhandary, Pravin P. Ingole, Suddhasatwa Basu, Electrosynthesis of Mn-Fe oxide nanopetals on

carbon paper as bi-functional electrocatalyst for oxygen reduction and oxygen evolution reaction

Int J hydrogen Energy 43 (2018) 3165-3171

4. P. Lund, Z. Bin, Li, Yong-Dan; S Yun, Nasibulin, Albert; R Raza, M. Leskelä, Ni, W. Meng, C. Yan, F.

Gang, K. Liangdong, Jung-Sik, Suddhasatwa Basu, T. Kallio, I. Pamuk, Standardized Procedures

Important for Improving Single-Component Ceramic Fuel Cell Technology, ACS Energy Lett, 2 (12),

2752–275 (2017) http://dx.doi.org/10.1021/acsenergylett.7b00997

5. Rama Devi Tentu, Suddhasatwa Basu, Photocatalytic Water Splitting For Hydrogen Production,

Current Opinion in Electrochemistry, 5, 56–62 (2017) https://doi.org/10.1016/j.coelec.2017.10.019

6. Ieeba Khan, Pankaj K Tiwari, Suddhasatwa Basu Analysis of Ceria Carbonate Composite Electrolytes

for Low Temperature Solid Oxide Fuel Cells, Ionics 24, 211-219 (2018) doi.org/10.1007/s11581-017-

2184-9

7. Rahul Pal and Suddhasatwa Basu, Low temperature synthesis of copper manganese oxide-polyaniline

composite: Electrochemical characterizations for oxygen reduction reaction in acid media,

Ferroelectrics, 519, 1–10 (2017) doi.org/10.1080/00150193.2017.1361220

8. Nimai Bhandary, Pravin P. Ingole and Suddhasatwa Basu, Facile Solid-State Synthesis of Ag/g-C3N4

Reinforced Graphene Oxide for Enhanced Electrocatalysis of Oxygen Reduction Reaction in Alkaline

Fuel Cell, Chemistry Select, 2 (26) 8151–8157 (2017) DOI: 10.1002/slct.201700926

7

9. Neetu Kumari, M A Haider, Suddhasatwa Basu, Reduction of CO2 to CO in presence of H2 on

strontium doped lanthanum manganite cathode in solid oxide electrolysis cell, J Chem Sci 129 (11)

1735–1740 (2017) doi.org/10.1007/s12039-017-1385-0

10. Praduman Arora, Aadesh P. Singh, Bodh R. Mehta, Suddhasatwa Basu, Metal doped tubular carbon

nitride (tC3N4) based hematite photoanode for enhanced photoelectrochemical performance, Vacuum

146, 570-577 (2017) https://doi.org/10.1016/j.vacuum.2017.07.010

11. Puneet Yadav and Suddhasatwa Basu, An Integrated Device for Converting Water, Carbon Dioxide

and Light into Electricity and Organics, J. Electrochem Soc, 164 (11) E3406-E3417 (2017)

12. Ieeba Khan, Muhammad Imran Asghar, Peter D Lund, Suddhasatwa Basu, High conductive (LiNaK)2

CO3Ce0.85Sm0.15O2 electrolyte compositions for IT-SOFC applications, Intl J of Hydrogen Energy,

42(32), 20904-20909 (2017)

13. Pankaj Kr. Tiwari, Xiangling Yue, John T. S. Irvine, and Suddhasatwa Basu, La and Ca-Doped A-Site

Deficient Strontium Titanates Anode for Electrolyte Supported Direct Methane Solid Oxide Fuel Cell,

J. of Electrochem Soc, 164 (9) F1030-F1036 (2017)

14. Srabanti Ghosh, Nimai Bhandary, Suddhasatwa Basu and Rajendra N Basu, Synergistic effects of

polypyrrole nanofibers and Pd nanoparticles for improved electrocatalytic performance of Pd/PPy

nanocompistes for ethanol oxidation, Electrocatalysis, 8(4) 329-339, (2017)

15. Appan Roy Chowdhury, Arneish Prateek, Suddhasatwa Basu, Sandip K Jha Tyrosinase Conjugated

Prussian Blue Modified Nickel Oxide Nanoparticles Based Interface for Selective Detection of

Dopamine, ChemistrySelect 2, 6118-6128 (2017)

16. M. Bello, S.M.J. Zaidi,A. Al-Ahmed, S. Basu, D.-H. Park,K.S. Lakhi,A. Vinu, Pt-Ru nanoparticles

functionalized mesoporous carbon nitride with tunable pore diameters for DMFC applications,

Microporous and Mesoporous Materials 252, 50-58 (2017)

17. Smita Kumar, Sandeep Malyan, Suddhasatwa Basu and Narsi R Bishnoi, Syntrophic association and

performance of Clostridium, Desulfovibrio, Aeromonas and Tetrathiobacter as anodic biocatalyst for

bioelectricity generation in dual chamber microbial fuel cell, Environ Sci and Pollut Res 24 (19),16019–

16030 (2017)

18. Harikrishnan N. and Suddhasatwa Basu, Regeneration of CO poisoned Pt black Anode catalyst in

PEMFC using Break-in procedure and KMnO4 solution, Int J Hydrogen Energy, 42(37) 23814-23820

(2017)

19. Ravi Tejasvi, Suddhasatwa Basu, Formation of thin film like assembly of exfoliated C3N4 nanoflakes

by solvent non-evaporative method using centrifuge, Appl Surface Sci. 424(1) 9-14 (2017)

20. Amandeep Jindal, Harikrishnan N., Suddhasatwa Basu, Direct Formic Acid PEM Fuel Cell with

Electrospun Carbon Nitride Nanofibers as Cathode Catalyst, Fuel Cells, 17(3) 407–411 (2017) DOI:

10.1002/fuce.201600209 (highlighted in back cover)

21. Baijnath, Suddhasatwa Basu, Fabrication and Electrochemical Performance of La0.5Sr0.5CoO3

Impregnated Porous YSZ Cathode, Ionics 23, 2543–255 (2017)

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22. Smita S. Kumar, Suddhasatwa Basu, and Narsi R. Bishnoi, Effect of cathode environment on

bioelectricity generation using a novel consortium in anode side of a microbial fuel cell, Biochem Eng.

J., 121, 17–24 (2017)

23. Srabanti Ghosh, Prasenjit Kar, Nimai Bhandary, Suddhasatwa Basu, Thandavarayan Maiyalagan,

Samim Sardar, Samir Kumar Pal, Reduced graphene oxide supported hierarchical flower like manganese

oxide as efficient electrocatalysts toward reduction and evolution of oxygen, Int J Hydrogen Energy, 42,

4111-4122 (2017)

24. Baruah, Arabinda; Amandeep Jindal; Acharya, Chhayakanta; Prakash, Bhanu; Suddhasatwa Basu;

Ashok Ganguli, Microfluidic reactors for the morphology controlled synthesis and photocatalytic study

of ZnO nanostructures, J. Micromechanics and Microengineering, 27 (3) 035013 (2017)

doi:10.1088/1361-6439/aa5bc4

25. Suddhasatwa Basu, Debasish Biswal and Amol Shegonkar, Synthesis and characterization of supported

Sn/γ-Al2O3 and Sn/ZSM5 catalysts for CO2 reduction in electrochemical cell, J CO2 Utilization 18, 80-

88 (2017)

26. Suchita Dhankhar, Pankaj Tiwari, K. Baskar, Suddhasatwa Basu, Shubra Singh, Effect of low cobalt

doping on morphology and properties of calcium ferrite and its application as cathode in Solid oxide

Fuel cell, Current Applied Physics, 17 467-473 (2017) DOI:10.1016/j.cap.2017.01.008

27. Baijnath, Pankaj Kumar Tiwari, Suddhasatwa Basu, Synthesis and Performance of La0.5Sr0.5CoO3

Cathode for Solid Oxide Fuel Cells, Advanced Materials Letters, 8(7), 791-798 (2017) DOI:

10.5185/amlett.2016.6895

28. Pankaj Tiwari, Suddhasatwa Basu, CeO2 and Nb2O5 modified Ni-YSZ anode for solid oxide fuel cell,

Ionics, 23, 2571–2577 (2017)

29. Amandeep Jindal, Suddhasatwa Basu, Neha Chauhan, Tomofumi Ukai, D. Sakthi Kumar, Samudyatha

K.T., Application of electrospun CNx nanofibers as cathode in microfluidic fuel cell

J Power Sources, 342, 165-174 (2017)

30. Nimai Bhandary, Aadesh P. Singh, Pravin P. Ingole and Suddhasatwa Basu, Enhancing the

Photoelectrochemical Performance of a Hematite Dendrite/Graphitic Carbon Nitride Nanocomposite

through Surface Modification with CoFeOx, ChemPhotoChem 1,70–75 (2017) DOI

10.1002/cptc.201600008

31. Karan Malik, Surya Singh, Anil Verma, Suddhasatwa Basu, Electrochemical Reduction of CO2 for

Synthesis of Green Fuel, WIRES: Energy & Environment, 6 (July/Aug), 1-17 (2016) DOI:

10.1002/wene.244 (highlighted in front cover)

32. Geetika Gupta, Aarti Raman and Suddhasatwa Basu, Removal of phenol and penta-chloro-phenol from

water by liquid-liquid extraction using reverse micelles J. Indian Chem. Soc., 93, 789-794 (2016)

33. N. Bhandary, A. P. Singh, S. Kumar, P. P. Ingole, G. S. Thakur, A. K. Ganguli and S. Basu, In-situ solid

state synthesis of AgNi/g-C3N4 nanocomposite for enhanced photoelectrocatalytic and photocatalytic

activity, ChemSusChem 9 (19) 2816–2823 (2016) DOI: 10.1002/cssc.201600740

9

34. Merajul Islam and Suddhasatwa Basu, Understanding photoelectrochemical degradation of methyl

orange using TiO2/Ti mesh as photocathode under visible light, J. Environ. Chem. Eng., 4, (3) 3554-

3561 (2016)

35. Shaneeth M., Suddhasatwa Basu, S. Aravamuthan, PEM Fuel Cell Cathode Catalyst Layer Durability:

An Electrochemical Spectroscopic Investigation, Chem. Eng. Sci. 154(2) 72-80 (2016)

http://dx.doi.org/10.1016/j.ces.2016.06.062

36. Nimai Bhandarya, Suddhasatwa Basu, Pravin P. Ingole, Rudimentary Simple, Single step fabrication

of nano-flakes like AgCd alloy electro-catalyst for oxygen reduction reaction in alkaline fuel cell,

Electrochim Acta, 212, 122-129, (2016) DOI: 10.1016/j.electacta.2016.06.143

37. Amandeep Jindal, Deepak K Gautam and Suddhasatwa Basu, Electrocatalytic activity of electrospun

carbon nitride-polyacrylonitrile nanofiber towards oxygen reduction reactions J Electroanl Chem. 775,

198-204 (2016)

38. Neetu Kumari, Ali Haider, Manish Agarwal, Nishant Sinha, and Suddhasatwa Basu, Role of Reduced

CeO2(110) Surface for CO2 Reduction to CO and Methanol, J. Phys. Chem. C, 120 (30), 16626–16635

(2016)

39. K. Sood, Suddhasatwa Basu, Optical, thermal, electrical and morphological study of La1-xCaxGaO3-

d (x=0, 0.05, 0.10, 0.15 and 0.20) electrolyte, J European Ceramic Soc., 36, 3165-3171 (2016)

DOI:10.1016/j.jeurceramsoc.2016.05.003

40. N Bhandary, A. P. Singh, P. Ingole, Suddhasatwa Basu, ‘Enhanced photoelectrochemical performance

of electrodeposited hematite films decorated with nanostructured NiMnOx’, RSC Adv. 6, 35239–35247

(2016)

41. Harikrishnan N. and Suddhasatwa Basu, Development of Simple Diagnostic Tool for Proton Exchange

Membrane Fuel Cell Using Reference Electrodes in Sub Cells in Series, Int J Hydrogen Energy, 41(18)

7659–7665 (2016)

42. Amandeep Jindal and Suddhasatwa Basu, Improvement in Electrocatalytic Activity Of Oxygen

Reduction Reaction Of Electrospun Carbon Nitride/Polyacrylonitrile Nanofibers By Addition of Carbon

Black And Nafion® Fillers, Int J Hydrogen Energy, 41(27) 11624-11633 (2016)

10.1016/j.ijhydene.2016.02.136

43. Uzma Anjum, Saumye Vashishtha, Manish Agarwal, Pankaj Tiwari, Nishant Sinha, Ankit Agarwal, S.

Basu, M. Ali Haider, Oxygen anion diffusion in double perovskite GdBaCo2O5+δ and LnBa0.5Sr0.5Co2-

xFexO5+δ (Ln=Gd, Pr, Nd) electrodes, Int Journal of Hydrogen Energy, 41(18) 7631-7640 (2016)

44. K. Sood and Suddhasatwa Basu, Co-Existence of Amorphous and Crystalline Phases in Na-Doped

SrSiO3 System, RSC Advance, 6, 20211-20218 (2016)

45. A. P. Singh, P. Arora, B. R. Mehta, Suddhasatwa Basu Graphitic carbon nitride based hydrogen

treated disordered titanium dioxide core-shell nanocatalyst for enhanced photocatalytic and

photoelectrochemical performance, Int J. Hydrogen Energy, 41(13), 5617-5628, (2016)

10

46. Aadesh P. Singh, Manan Mehta, Nisha Kodan, Sandeeep Kumar, Leonhard Mayrhofer, Michael Moseler

and Suddhasatwa Basu, Vacuum Hydrogen Annealed Titanium Dioxide Nanocrystal for Enhanced

Photoelectrochemical and Photocatalytic Performance, J. Mat Chem A 4, 2670-2681 (2016)

47. Appan Roy Chowdhury, Suddhasatwa Basu, Sandip K Jha, Dopamine biosensor based on surface

functionalized nanostructured nickel oxide platform, Biosensors and Bioelectronics 84, 72-81 (2016)

48. Neetu Kumari, M Ali Haider, Nishant Sinha, Suddhasatwa Basu, Density functional theory study of

CO2 adsorption and reduction on stoichiometric and doped ceria, ECS Transactions 68 (3) 155-166

(2015)

49. Srabanti Ghosh, Prasenjit Kar, Nimai Bhandary, Suddhasatwa Basu, Samim Sardar, Thandavarayan

Maiyalagan, Dipanwita Majumdar, Swapan Kumar Bhattacharya, Asim Bhaumik, Peter Lemmens,

Samir Kumar Pal, Microwave-assisted synthesis of porous Mn2O3 nanoballs as bifunctional

electrocatalyst for oxygen reduction and evolution reaction, Cat Sci. Tech, 6, 1417-1429 (2015)

50. Dyuti Pandey, Suddhasatwa Basu, Synthsis, characterization and performance of calcium and

samarium co-doped ceria electrolytes for low and intermediate temperature solid oxide fuel cells, ECS

Transactions 68 (1) 351-358 (2015)

51. Pankaj Tiwari, Suddhasatwa Basu, La, Y and Nb doped SrTiO3 anode in electrolyte supported solid

oxide fuel cell. ECS Transactions, 68 (1) 1435-1446 (2015)

52. Merajul Islam and Suddhasatwa Basu, Effect of morphology and pH on (photo)electrochemical

degradation of methyl orange using TiO2/Ti mesh photocathode under visible light, J. Environ. Chem.

Eng. 3, 2323-2330 (2015)

53. Amandeep Jindal, Suddhasatwa Basu, C. P. Aby, Electrospun Carbon Nitride Supported On

Poly(vinyl) Alcohol As An Electrocatalyst For Oxygen Reduction Reaction RSC Advances, 5, 69378-

69387 (2015)

54. Varagunapandiyan Natarajan, Suddhasatwa Basu, Performance and Degradation Studies of RuO2-

Ta2O5 Anode Electrocatalyst for High Temperature PBI Based Proton Exchange Membrane Water

Electrolyser, Intl J. Hydrogen Energy 40 16702-16713 (2015)

55. Kapil Sood, K. Singh, Suddhasatwa Basu and O. P. Pandey, Preferential occupancy of Ca2+ dopant in

La1-x Cax InO3-δ (x = 0-0.20) perovskite: structural and electrical properties, Ionics, 21 (10) 2839-2850

(2015)

56. Garima Gag, Suddhasatwa Basu, Studies on Degradation of Copper Nano Particles in Cathode for CO2

Electrolysis to Organic Compounds, Electrochimica Acta, 177, 359-365 (2015)

57. Goel J and Suddhasatwa Basu, Mathematical Modeling and Experimental Validation of Direct Ethanol

Fuel Cell, Intl J. Hydrogen Energy, 40 (41) 14405-144415 (2015)

11

58. Anup Das, Suddhasatwa Basu, Anil Verma, Keith Scott, Characterization of Low Cost Ion Conducting

Poly(AAc-co-DMAPMA) Membrane for Fuel Cell Application, Materials Sciences and Applications,

6, 234-241 (2015)

59. Gurpreet Kaur, Suddhasatwa Basu, Performance Studies of Copper-Iron/Ceria-Yttria Stabilized

Zirconia Anode for Electro-oxidation of Methane in Solid Oxide Fuel Cells, Int J Energy Res, 39, 1345-

1354 (2015)

60. N. Kumari, N. Sinha, A. Haider, S. Basu, CO2 reduction to Methanol on CeO2 (110) Surface: a density

functional theory study, Electrochimica Acta 177, 21-29 (2015)

61. S. Badwal, S. Giddey, A. Kulkarni, J. Goel, S. Basu, Direct Ethanol Fuel Cells for Transport and

Stationary Applications – A Comprehensive Review, Applied Energy, 45, 80-103 (2015)

62. R. Chockalingam, S. Basu, A. K. Ganguli, Structural and electrical characterization of PrxCe0.95-x Gd0.05

O2- as cathode material for low temperature SOFC, in Ed F. Dogan, T. M. Tritt et al.; Vol Ed Hua-Tay-

Liu, Ceramics for Environment & Energy Appls II, Ceramic Transactions Vol 246 pages 13-26 (2014);

DOI: 10.1002/9781118771327.fmatter

63. B. B. Patil and S. Basu, Synthesis and Characterization of PdO-NiO-SDC Nano-Powder by Glycine-

Nitrate Combustion Synthesis for Anode of IT-SOFC, Energy Procedia, 54, 669-679 (2014)

64. Aseem Sharma and Suddhasatwa Basu, Study of Transient Behaviour of Solid Oxide Fuel Cell Anode

Degradation Using Percolation Theory, Ind Eng Chem Res 53 (51), 19690–19694 (2014)

65. Gurpraeet Kaur, Suddhasatwa Basu, Study of Carbon Deposition Behavior on Cu-Co/CeO2-YSZ

Anodes for Direct Butane Solid Oxide Fuel Cells, Fuel Cells, 14(6), 1006–1013 (2014)

66. Goel J and Suddhasatwa Basu, Effect of support materials on the performance of direct ethanol fuel

cell anode catalyst, Intl J. Hydrogen Energy 39, 15956-15966 (2014)

67. Pankaj Kr Tiwari and Suddhasatwa Basu, Performance studies of electrolyte supported solid oxide fuel

cell with Ni-YSZ and Ni-TiO2-YSZ as anode, Journal of Solid State Electrochemistry 18(3) 805-812

(2014)

68. Rajalekshmi Chockalingam, Ashok K Ganguli, Suddhasatwa Basu, Praseodymium gadolinium doped

ceria as a cathode material for low temperature solid oxide fuel cells, J Power Sources 250, 80-89 (2014)

69. Pankaj Kr Tiwari and Suddhasatwa Basu, Performance of Ni-CeO2-YSZ and Ni-Nb2O5-YSZ Anodes

for Solid Oxide Fuel Cell. ECS Trans. 57(1): 1545-1552 (2013)

70. Gurpreet Kaur and Suddhasatwa Basu, Copper-Iron-Ceria Anode for Direct Utilization of

Hydrocarbons in Solid Oxide Fuel Cells. ECS Trans. 57(1): 2961-2968 (2013)

71. R. Chokalingam and Suddhasatwa Basu, TbxCe0.95-XGd0.05O2-δ (0.15 ≤ x ≤ 0.40) Cathode Materials

Prepared through Solid State Route for Low Temperature SOFC. ECS Trans. 57(1): 1811-1820 (2013)

12

72. Ravi Shankar, Meenal Asija, Nisha Singla, Suddhastwa Basu, Gabriele Kociok-Köhnc and Kieran C.

Molloyc, Synthesis, characterization and selective de-esterification of diorganotinbis-(O

methylphosphite)s, Dalton Trans. 42, 15591–15598 (2013)

73. D. Basu, S. Basu, Mathematical Modeling of Overpotentials of Direct Glucose Alkaline Fuel Cell and

Experimental Validation, J Solid State Electrochemisrty, 17(11) 2927-2938 (2013)

74. Varagunapandiyan Natarajan, Suddhasatwa Basu and Keith Scott, Effect of treatment temperature on

the performance of RuO2 anode electrocatalyst for high temperature proton exchange membrane water

electrolysers, Intl J. Hydrogen Energy 38(36) 16623–16630 (2013)

75. Vinod Kumar Puthiyapura, Sivakumar Pasupathi, Suddhasatwa Basu, Xu Wu, Huaneng Su, N.

Varagunapandiyan, Bruno Pollet, Keith Scott, RuxNb1-xO2 catalyst for the oxygen evolution reactionin

proton exchange membrane water electrolysers, Intl J. Hydrogen Energy 38 8605-8616 (2013)

76. R. Pathak, S. Basu, Mathematical Modeling and Experimental Verification of Direct Glucose Anion

Exchange Membrane Fuel Cell, Electrochim Acta 113 (15) 42-53 (2013)

77. A. Ghosh, S. Basu, A. Verma Graphene and Functionalized Graphene Supported Platinum Catalyst for

PEMFC, Fuel Cell 13 (3) 355–363 (2013)

78. D. Basu, S. Sood, S. Basu, ‘Comparison of Performance of Direct Glucose Alkaline and Anion

Exchange Membrane Fuel Cells: Pt-Au/C and Pt-Bi/C Anode Catalysts’, Chem Eng J. 228 867–870

(2013)

79. K Solanki, S. Sindhu, S. Basu, Microbial fuel cells for azo dye treatment with electricity generation: A

Review, Bioresource Tech. 131 564-571 (2013)

80. M. Nath, A. S. Hameed, Rajalaskmi C., S. Basu, A. K. Ganguli, ‘Low Temperature Electrode Materials

Synthesized by Citrate Precursor Method for Solid Oxide Fuel Cells, Fuel Cells 13 (2), 270-278 (2013)

81. Sanjeev Kumar N, V. C. Srivastava, S. Basu, Optimization and kinetics of furfural oxidation to furoic

acid over alum impregnated activated alumina, Indian Chemical Engineer, 55(3) 153-164 (2013)

82. Tiwari, P., and S. Basu, Ni infiltrated YSZ anode stabilization by inducing strong metal support

interaction between nickel and titania in solid oxide fuel cell under accelerated testing, Intl J. Hydrogen

Energy, 38 9494-9499 (2013)

83. Kaur, G., and S. Basu Performance studies of coppereiron/ceriaeyttria stabilized zirconia anode for

electro-oxidation of butane in solid oxide fuel cells, J. Power Sources 241 783-790 (2013)

84. Rajalakshmi C., A. K. Ganguli, S. Basu Advances in Solid Oxide Fuel Cells VIII Mixed Conducting

Praseodymium Cerium Gadolinium Oxide (PCGO) Nano-Composite Cathode for ITSOFC Applications

in Advances in Solid Oxide Fuel Cells VIII, The American Ceramic Soc., 47-62, 2012; Ceramic

Engineering and Science Proceedings Vol 33 (eds P. Singh, N. P. Bansal, M. Halbig and S. Mathur), John

Wiley & Sons, Inc., NJ, USA (2013) doi: 10.1002/9781118217481.ch4

85. Rajalakshmi C., A. K. Ganguli, S. Basu, Development of GDC-(LiNa)CO3 Nano-Composite Electrolytes

For Low Temperature Solid Oxide Fuel Cells in Advances in Solid Oxide Fuel Cells VIII, The American

13

Ceramic Soc., 34-46, 2012; Ceramic Engineering and Science Proceedings Vol 33; (eds P. Singh, N. P.

Bansal, M. Halbig and S. Mathur), John Wiley & Sons, Inc., NJ, USA (2013) doi:

10.1002/9781118217481.ch5

86. J. Goel, S. Basu, ‘Pt-Re-Sn as metal catalysts for electro-oxidation of ethanol in direct ethanol fuel cell’,

Fuel Cells Science & Technology 2012 – A Grove Fuel Cell Event, Energy Procedia 28, 66-77, (2012)

87. A. K. Jain, S. Basu, ‘Flow past porous permeable sphere: hydrodynamics and heat transfer studies’, Ind.

Engng. Chem. Res 51 2170-2178 (2012)

88. Basu, D., S. Basu,‘Performance studies of Pd-Pt and Pt-Pd-Au catalyst for electro-oxidation of glucose

in direct glucose fuel cell’, Intl J Hydrogen Energy, 37(5) 4678-4684 (2012)

89. Tayal, J., Rawat, B., S. Basu, Effect of Addition of Rhenium to Pt-based Anode Catalysts in Electro-

oxidation of Ethanol in Direct Ethanol PEM Fuel Cell, Intl J. Hydrogen Energy 37(5), 4597-4605 (2012)

90. P. B. L. Chaurasia, P. Shekhar, S. Basu, N. Panja and K. Kendall, Investigations on power density from

proton exchange membrane fuel cell for power generation from solar energy, Journal of Materials

Science and Engineering with Advanced Technology, 5 (1), 17-37 (2012)

91. Xu W, Scott K, Basu S. Performance of a high temperature polymer electrolyte membrane water

electrolyser. J Power Sources 196: 8918– 8924 (2011)

92. H. Pramanik, S. Basu, Cyclic Voltammetry of Oxygen Reduction Reaction Using Pt-based

Electrocatalysts on a Nafion-bonded Carbon Electrode for Direct Ethanol Fuel Cell, Indian Chemical

Engineer, 53(3), 124-135, (2011)

93. Chokalingam, R., S. Basu, ‘Impedance Spectroscopy studies of Gd-CeO2-(LiNa)CO3 nano-composites

electrolyte for low temperature SOFC applications Intl J Hydrogen Energy, 36 (22) 14977-14983 (2011)

94. D. Basu, S. Basu, Synthesis, Characterization and Application of Platinum Based Bi-metallic Catalysts

in Direct Glucose Alkaline Fuel Cell’, Electrochim Acta, 56 6106-6113 (2011); Erratum in

Electrochimica Acta 56 (2011) 7758

95. Tayal, J., B. Rawat, S. Basu, Bi-metallic and tri-metallic Pt-Sn/C, Pt-Ir/C, Pt-Ir-Sn/C catalysts for

electro-oxidation of ethanol in direct ethanol fuel cell’ Intl J. Hydrogen Energy 36 (22) 14884-14897

(2011)

96. Xu W., Tayal, J., S. Basu, K. Scott, ‘Nano-crystalline RuxSn1-xO2 powder catalysts for the oxygen

evolution reaction in Proton Exchange Membrane Water Electrolyser (PEMWE)’ Intl J Hydrogen

Energy 36 (22) 14796-14804 (2011)

97. Basu, D., S. Basu, ‘Synthesis and Characterization of PtAu/C catalyst for Glucose Electro-oxidation for

the application in direct glucose fuel cell’, Intl J Hydrogen Energy, 36 (22) 14923-14929 (2011)

98. Awasthi, A., S. Basu, K. Scott, ‘Dynamic modeling and simulation of a proton exchange membrane

electrolyzer for hydrogen production’ Intl J Hydrogen Energy, 36 (22) 14779-14786 (2011)

99. Chokalingam, R., Jain, S, S. Basu, ‘Conductivity of Gd-CeO2-(LiNa)2 CO3 Nano Composite Electrolytes

for Low Temperature Solid Oxide Fuel Cells’ Integrated Ferroelectrics, 116, 23-34 (2010)

14

100. D. Basu, S. Basu,’ A Study on Direct Glucose and Fructose Alkaline Fuel Cell, Electrochim Acta,

55, 5575-5579 (2010)

101. Pramanik, H., S. Basu, ‘Modeling and experimental validation of overpotentials of a direct ethanol

fuel cell’ Chem. Eng Process, 49(7) 635-642 (2010)

102. Gaurav, D., A. Verma, D. Sharma and S. Basu, Development direct alcohol alkaline fuel cell stack,

Fuel Cell, 10(4) 591-596 (2010)

103. Biswas, S, P Sambu, S. Basu, Influence of pore former and PTFE in performance of direct ethanol fuel

cell'. Asia-Pac J Chem Eng. 4, 3-7 (2008)

104. Gupta, A. K. and S. Basu, Deformation of an oil droplet on solid substrate in simple shear flow, Chem.

Eng. Sci., 63, 5496-5502 (2008)

105. Basu, S., A. Agarwal, H Pramanik, ‘Improvement in performance of a direct ethanol fuel cell: effect

of sulfuric acid and Ni-mesh’ Electrochem. Comm. 10, 1254 - 1257 (2008)

106. Pramanik, H., Basu, S., Wragg, A.A., Studies on operating parameters and cyclic voltammetry of a

direct ethanol fuel cell, J Appl. Electrochem., 38(9) 1321-1328 (2008)

107. S. Basu and Shravan, ‘Preparation and characterization of petroleum sulfonate directly from

crude’Petroleum Sci. Technol. 26 (13) 1559-1570 (2008)

108. Phirani, J., and S. Basu, ‘Analyses of fuel utilization in micro-fluidic fuel cell’ J Power Sources, 175,

261-265 (2008)

109. Pramanik, H., and Basu, S., A Study on Process Parameters of Direct Ethanol Fuel Cell, Can J. Chem

Eng., 85(5), 781-785 (2007)

110. Verma A., and Basu, S., Direct Alkaline Fuel Cell for Multiple Liquid Fuels: Anode Electrode Studies,

J. Power Sources, 174, 180-185 (2007)

111. Verma, A, and S. Basu, ‘Experimental Evaluation and Mathematical Modeling of A Direct Alkaline

Fuel Cell’, J. Power Sources, 168(1), 200-210, (2007)

112. Basu, S., ‘Future direction of fuel cell science and technology’, J. Petrotech Soc., IV(1), 16-21, (2007)

113. T Reddy Keshav, S. Basu, ‘Spreading of Liquid droplets on Proton Exchange Membrane of a Direct

Alcohol Fuel Cell’, Chem. Eng Sci., 62, 7515-7522 (2007)

114. Verma, A., Sharma, A., and S. Basu, ‘Electro-oxidation study of methanol and ethanol in alkaline

medium in a fuel cell’ Ind. Chem Engr. 49(4) 330-340 (2007)

115. Reddy, K. T. and S. Basu, ‘Gas-to-Liquid technologies and India’s perspective’ Fuel Processing

Technol., 88, 493-500 (2007)

15

116. Basu, S., ‘Frontier Areas of Chemical Engineering Research in the Twenty-First Century’, Ind Chem

Eng., 48(4), 273-277 (2006)

117. Basu, S., Development of direct alcohol fuel cell, Hydrogen and Fuel Cell Corporation Bulletin, 3,

April-June, 8-12, (2006)

118. Reddy, T. K., Basu, S., Nanotechnology: Catalyses, Adsorbents, and Social Concern, Productivity,

47(3), 204-210, (2006)

119. Kumar, D., Gupta, S., S. Basu, ‘Prediction of surface tension of organic liquids using artificial neural

network’, Ind. Chem. Engr., 47(4) 219-223 (2005)

120. A. Verma and S. Basu, ‘Power from hydrogen via fuel cell technology’ Chemical Weekly, July, 177-

181 (2005)

121. Verma, A., and Basu, S., ‘Direct use of alcohols and sodium boro hydride as fuel in an alkaline fuel

cell' J. Power Sources 145, 282-285 (2005)

122. Verma, A., A. K. Jha, S. Basu “Manganese oxide as a cathode catalyst in flowing alkaline electrolyte

direct alcohol or sodium borohydride fuel cell” J. Power Sources 141 30-34 (2005)

123. A. Verma, A. K. Jha and S. Basu “Evaluation of an alkaline fuel cell for multi- fuel system” ASME J

Fuel Cell Science & Technology, 2, 234-237 (2005)

124. Gupta, J. K., and S. Basu “Simultaneous aggregation and sedimentation of silica particles in the

presence Of surfactants” Colloids Surfaces A: Physicochem. Engg. Aspects 255 139-143 (2005)

125. Pandit, P., and Basu, S., “Dye and solvent recovery in solvent extraction using reverse micelles for

the removal of ionic dye” Ind. Eng. Chem Res. 43 7861-7864 (2004)

126. Basu, S., Kandhari, A., Negi A. S., “Creaming behavior of amyl alcohol-in-water emulsion” J. Disp.

Sci. Technol. 25 (6) 823-827 (2004)

127. Verma, A., and S. Basu “Feasibility study of a simple unitized regenerative fuel cell” J. Power Sources

135 62-65 (2004)

128. Pandit, P. and Basu, S., “Removal of organic dyes from water by solvent extraction using reverse

micelles”, Environ. Sci. Technol 38 2435-2442 (2004)

129. Basu, S., Nandakumar, K., and J. H. Masliyah,``Effect of Calcium ions and Montomorillonite clay on

bitumen displacement by water'', Fuel 83(1) 17-22 (2004)

130. Basu, S., Luthra, J, and Nigam, K. D. P., “Spreading of agrochemical on leaf and seed surfaces in the

presence of surfactants” J. Environ Sci. Health - Part B: Pesticide, Food contaminants, and

Agricultural Waste 37 (4) 331-344 (2002)

131. Pandit, P. and S. Basu, “Separation of organic dyes from water by liquid-liquid extraction using

reverse micelles” J. colloid Interface Sci 245 208-214 (2002)

16

132. Malpani, P. R., and S. Basu, "Separation of Methyl Orange and Methylene Blue Dye from Water

using colloidal gas aphron" Sep. Sci. Tech. 36 (13), 2997-3013 (2001)

133. Basu, S. “Wall effect in laminar flow of non-Newtonian fluid through packed bed” Chem. Eng. J. 81

(1-3) 323-329 (2001)

134. Basu, S., Nandakumar, K., and J. H. Masliyah,``A study on daughter droplet formation in

bitumen/water/glass contact line displacement due to instability” Fuel 70 837-841 (2000)

135. Basu, S., Nandakumar, K., and J. H. Masliyah,``A visual study of high grade oil sand disintegration

process'', J. colloid Interface Sci., 205 201-203 (1998)

136. Basu, S., Nandakumar, K., and J. H. Masliyah,``Effect of hydrophobic and hydrophilic fines on

bitumen displacement by water on a Glass surface:'' Ind. Engng. Chem. Res., 37 959-969 (1998)

137. Basu, S., Nandakumar, K., and J. H. Masliyah,`` Effect of NaCl and MIBC/Kerosene on bitumen

displacement by water on a glass surface:'' Colloids Surfaces A: Physicochem. Engg. Aspects 136 71-

80 (1998)

138. Basu, S., Kumar, R., and K. S. Gandhi,``Flow of liquid/liquid dispersions in a Hele Shaw cell'', J.

Chem. Engg. Japan, 30 852-866 (1997)

139. Basu, S., Nandakumar, K., and J. H. Masliyah,``A model for detachment of a partially wetting drop

from a solid surface by a shear flow'' J. colloid Interface Sci., 190 253-257 (1997)

140. Basu, S., Nandakumar, K., and J. H. Masliyah,``On bitumen liberation from oil sands" Can. J. Chem.

Engg., 75 476-479 (1997)

141. Basu, S., Kumar, R., and K. S. Gandhi, ``Detachment of a coalesced phase blob from a circular

obstacle in a Hele Shaw cell'', Chem. Engg. Sci., 52 2849-2855 (1997)

142. Basu, S., Nandakumar, K., and J. H. Masliyah,``A study on oil displacement on model surfaces'', J.

colloid Interface Sci., 182 82-94 (1996)

143. Basu, S., A study on effect of wetting on mechanism of coalescence in a model coalescer'', J. colloid

and Interface Sci., 159 68-76 (1993)

Conference Proceedings

1. Ravi Tejasvi, Suddhastwa Basu, Synthesis of titania nanoflowers by soft hydrothermal route for

improved photoelectrocatalytic activity in solar water splitting, Page 1-2, www.vbripress.com/icmtech,

DOI: 10.5185/icmtech.2016

2. Neetu Kumari, Pankaj Tiwari, M. Ali Haider, S. Basu, CO2 reduction in High Temperature Solid Oxide

Electrolysis Cell, International Conference on Materials Science & Technology 2016, Page 3-4,

www.vbripress.com/icmtech, DOI: 10.5185/icmtech.2016

17

3. Ieeba Khan, Pankaj K. Tiwari, Suddhastwa Basu, Future of Low Temperature Solid Oxide Fuel Cells

using Ceria Carbonate Composite Materials, International Conference on Materials Science &

Technology 2016, Page 43, www.vbripress.com/icmtech, DOI: 10.5185/icmtech.2016

4. Baijnath, Pankaj Kumar Tiwari, Suddhastwa Basu, Synthesis and Performance of La0.5Sr0.5CoO3

Cathode for Intermediate Temperature Solid Oxide Fuel Cells, International Conference on Materials

Science & Technology 2016, Page 47-48 www.vbripress.com/icmtech, DOI: 10.5185/icmtech.2016

5. Ravi Tejasvi, Suddhastwa Basu, Growth of titania nanoflowers for enhanced photocatalytic activity in

water splitting, 1839-1842, 5th International Conference on Advances in Energy Research, IIT Bombay,

15-17th December 2015

6. Kapil Sood, Suddhastwa Basu, Na doped SrSiO3 material: structrure and its conductivity, 1365-1368,

5th International Conference on Advances in Energy Research, IIT Bombay, 15-17th December 2015

7. Baijnath, Pankaj Tiwari, Suddhastwa Basu, Comparative study of lanthanum strontium cobaltite

cathode material for low temperature solid oxide fuel cell synthesized by different methods. 1333-1336,

5th International Conference on Advances in Energy Research, IIT Bombay, 15-17th December 2015

8. Ieeba Khan, Pankaj Tiwari, Suddhastwa Basu, Comparative study of Ceria-Carbonate Composite

Electrolytes fabrication through melt infiltration and solid state route for LT-SOFC. Internation

Conference on Nanotechnology, Nanomaterials & Thin Films for Energy Applications, Manchester UK,

01-03 June, 2015

9. Iksha Singh, Shivani Choudhary and Suddhasatwa Basu, Platinum Nanoparticles Supported on ODA

Functionalized Graphene for Oxygen Reduction Reaction, 1st International conference on Graphene

Technology, ANM 2015, University of Aveiro, Portugal, 20-22 July, 2015

10. Harikrishnan Narayanan and Suddhasatwa Basu PEM Fuel Cell Diagnostics By Segmented Cell

Approach Using Electrochemical Impedance Spectroscopy, 1st International conference on Hydrogen

Energy, ANM 2015, University of Aveiro, Portugal, 20-22 July, 2015

11. Amandeep Jindal, Deepak K. Gautam and Suddhasatwa Basu, Synthesis of carbon

nitride/polyacrylonitrile nanofibers using electrospinning as effective non-platinum catalyst for oxygen

reduction reaction in fuel cells, 6th International conference on Advanced Nanomaterials, ANM 2015,

University of Aveiro, Portugal, 20-22 July, 2015

12. Varagunapandiyan K. and Suddhasatwa Basu, Investigations on high temperature proton exchange

membrane water electrolyser using composite membranes International Conference on Hydrogen

Production (ICH2P-2014), Fukuoka, Japan, Feb 2-5, 2014

13. Shivani Choudhury and S. Basu, Chemically Functionalized Graphene Supported Platinum

Electrocatalyst for Oxygen Reduction Reaction for Fuel Cell Application, ISEAC Discussion Meet,

Amritsar, Feb 20-25, 2014

14. Rahul Pal and S. Basu, Electrochemically synthesized cu-mn/polyaniline composite as catalyst for

oxygen reduction reaction in PEM fuel cell, ISEAC Discussion Meet, Amritsar, Feb 20-25, 2014

18

15. Suddhasatwa Basu, Development of high temperature proton exchange membrane water electrolyser

for production of pure hydrogen and oxygen, 2nd International Hydrogen and Fuel Cell Conference Goa,

Dec 1-3, 2013

16. Suddhasatwa Basu and R. Chockalingam, TbxCe0.95-XGd0.05O2-δ (0.15 ≤ x ≤ 0.40) Cathode

Materials Prepared Through Solid State Route for Low Temperature SOFC-XIII Okinawa, October 6-

11, 2013

17. Basu, S., Role of catalyst support in ethanol oxidation in direct ethanol fuel cell, International

Conference on Electrochemical Materials and Technologies for Clean Sustainable Energy, July 5-9,

2013, Guangzhou China.

18. Suddhasatwa Basu, Development of Direct Hydrocarbon Fuel Cells, Indo-US Workshop on

Electrocatalytic Materials for Fuel and Biofuel Cells (Indo-US CEM-2013), BHU Varanasi, Feb 26-28,

2013

19. Saeed, F., S. Basu, ‘Studying the Corrosion Behavior of Nanograde Pt-Ru/C Catalyst Used In Direct

Ethanol Proton Exchange Membrane Fuel Cells, ELAC 2013, Fifth ISEAC Triennial International

Conference on Advances and Recent Trends in Electrochemistry, Ed S. K. Agarwal, ISEAC 161-166,

2013

20. S. Basu, Direct Hydrocarbon Fuel Cell Technology Synthesis and Characterization of SDC Nano-

Powder by Glycine - Nitrate Combustion Synthesis for Its Potential Application as an electrolyte in IT-

SOFC 6th Asian Conference on Electrochemical Power Sources (ACEPS-6), Chennai, Jan 6-8, 2012

21. Vinod, P., S. Basu, K. Scott, An efficient bimetallic Ru(x)Nb(1-x)O2 electro catalyst at the anode side of

Proton exchange membrane water electrolyzer (PEMWE) 62nd meeting of Intl Soc. of Electrochemistry,

Niigata, Japan, Sept 12-16, 2011

22. Basu, S, Dutta-Ray, P., Modelling of Vanadium Oxide Redox Flow Battery, 62nd meeting of Intl Soc.

of Electrochemistry, Niigata, Japan, Sept 12-16, 2011

23. C. Pande, S. K. Biswas, S. Basu, ‘Direct ethanol fuel cell: Preparation and Characterization of novel Pt-

Re-Sn/C, Pt-Re/C anode electrocatalysts for ethanol electrooxidation’, 8th International Oil & Gas

Conference and Exhibition Petrotech 2009, Jan 11-15, 2009, New Delhi

24. Basu, S, S. K. Biswas. ‘Preparation and Characterization of novel Pt-Re-Sn/C, Pt-R/C electrocatalysts

for ethanol electrooxidation in Direct Ethanol Fuel cell’ International Symposium PFAM XVII

Processing and Fabrication of Advanced Materials, Dec 15-17, 2008, New Delhi

25. A. Verma, and S. Basu, ‘Development of direct alcohol alkaline fuel cell’ Can Soc Chem Eng Conf.,

Edmonton, Alberta, Canada, Oct 28- Oct 31, 2007

26. A. Gupta and S. Basu, ‘Oil droplet deformation and detachment on solid substrate in shear field’ Can

Soc Chem Eng Conf., Edmonton, Alberta, Canada, Oct 28- Oct 31, 2007

27. Basu S “Prediction of surface tension of organic liquids using Artificial Neural Networks” 12th National

Conf. on Surfactant, Emulsion and Bio-colloids, NATCOSEB XII, Imphal, Nov 9-11, 2005 (Plenary

Lecture)

19

28. Verma, A., and Jha, A. K., S. Basu ‘Analyses of Multi-Fuel Alkaline Fuel cell’, Grove Fuel cell

Symposium – Fuel cells Science & Technology, Oct. 6-7, 2004 Munich

29. Verma, A., and Jha, A. K., S. Basu* ‘Evaluation of an Alkaline Fuel cell for multi-fuel system’,

Proceedings of 2nd Intl. Conf. on Fuel Cell Sci. Tech, & Eng (ASME), Rochester, New York, June 14-

16, 2004

30. Pandit, P. and Basu, S., “Removal of ionic dyes Removal of ionic dyes” 11th National Conf. on

Surfactant, Emulsion and Bio-colloids, NATCOSEB XI, UICT, Mumbai, Dec 11- 13, 2003

Conference Invited Talk/Keynote Speech by Suddhasatwa Basu

1. Asian Conference on Electrochemical Power Sources (ACEPS 9), Geongju, Korea Aug 20-23, 2017,

Development Direct Formic Acid Microfluidic Fuel Cell, (Keynote speaker)

2. Nanoenergy 2017, Helsinki, July 26-28, 2017, LSCT Anode for Direct Methane Solid Oxide Fuel Cell,

(Plenary Talk)

3. ICMAT 2017, Singapore, Nano-structured Fe, Mn and Ag-Ni Based Materials for Efficient

Photoelectrochemical Water Splitting, June 15-22, 2017 (Keynote lecture)

4. Intl Conf on Advances Functional Materials (ICAFM), CUTN and Anna University, Chennai, Jan 7-8,

2017, CO2 reduction to chemical fuel by photoelectrochemical and photochemical routes, (Invited

Speaker)

5. Workshop on Nanomaterials Technology, Yonsei University and India at Yonsei University on 14-15th

Dec, 2016. (Invited Talk)

6. Intl Conf on Technologically Advanced Materials and Asian Meeting on Ferroelectricity, Delhi

University, Delhi, Nov 7-11, 2016, CO2 reduction assisted by water splitting (Invited Speaker)

7. International Conference of Green Energy Technologies (ICGET 2016), NTUST, Taipei, Taiwan, Nov

21-23, 2016, Water splitting assisted CO2 Reduction to Chemical Fuel (Invited speaker)

8. 7th Intl Conf. on Advances in Nanomaterials ANM 2016, July 26-28, 2016 University of Aveiro, Aveiro,

Portugal, Development of microfluidic fuel cell, (Invited Speaker)

9. Intl Conf. on Nanotechnology for Better Leaving NBL 2016, June 24-28, 2016, CO2 reduction to

organics (Keynote speaker)

10. Intl. Conf. on Advances in Energy Research (ICAER) 2015, IIT Bombay, Dec 14-17, 2015, Direct

hydrocarbon solid oxide fuel cell, (Invited Speaker)

11. Intl Conf. on Innovative Electrochemical Energy Materials and Technologies (EEMT) 2015, Nov 7-12,

2015 Nanning, China, CO2 reduction to chemical fuels: Reaction Pathways, (Keynote speaker)

12. Nanoenergy, Manchester, June 2-4, 2015, CNx/PVA nano fibre as non Pt catalysts for ORR in Fuel Cell,

Nano Energy, (Invited Speaker)

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13. 13th Eurasia Conferenmce on Chemical Sciences Dec 14-18, 2014, IISc Bangalore,

Photoelectrochemical Degradation of Azo Dyes from Wastewater: A Microbial Fuel Cell Perspective

(Invited Talk)

14. DAE-BRNS 5th Interdisciplinary Symposium on Materials Chemistry (ISMC), Bhabha Atomic

Research Centre, Mumbai, December 9-13, 2014, Anode development fir direct hydrocarbon solid oxide

fuel cell (Invited talk)

15. CARISMA 2014, Dec 1-3 Cape Town, South Africa, Ruthenium Oxide Tantalum Oxide Anode

Electrocatalyst for high temperature proton exchange membrane water electrolyzer, (Invited Talk)

16. International Conference on Electrochemical Energy Science and Technology, organized by

International Academy of Electrochemical Energy Science (IAOEES), Shanghai 2014, Oct 31-Nov 4,

2014, Mathematical Modeling and Experimental Validation of Direct Ethanol Fuel Cell, (Invited talk)

17. International Conference on Electrochemical Energy Science and Technology, organized by

International Academy of Electrochemical Energy Science (IAOEES), Shanghai 2014, Oct 31-Nov 4,

2014, Electrochemical reduction of Carbon Dioxide on Ceria based Cathode for Solid Oxide

Electrolysers, (Key Note talk)

18. National Conference on Nanotechnology and Renewable Energy, Jamia Milia Islamia University, New

Delhi April 28-29, 2014, Development of carbon nitride nanofibers for oxygen reduction reaction in

micro fuel cells, (invited talk)

19. IUMRS ICA 2013, Dec 16-20, IISc Bangalore 2013, Role of Hybrid Nanocatalyst Support on Electro

Oxidation in Fuel Cell, (invited talk)

20. 2nd International Hydrogen and Fuel Cell Conference, HAI Goa, Dec 1-3, 2013, Development of high

temperature proton exchange membrane water electrolyser for production of pure hydrogen and oxygen,

(invited talk)

21. International Conference on Electrochemical Materials and Technologies for Clean Sustainable Energy,

July 5-9, 2013, Guangzhou China, Role of catalyst support in ethanol oxidation in direct ethanol fuel

cell (invited talk)

22. Indo-US Workshop on Electrocatalytic Materials for Fuel and Biofuel Cells (Indo-US CEM-2013),

BHU Varanasi, Feb 26-28, 2013, Development of Direct Hydrocarbon Fuel Cells, (invited talk)

23. Gordon Research Conference on Fuel Cell, Bryant University, Smithfield, RI, USA Aug 5-9, 2012,

Development of direct hydrocarbon fuel cell, (Invited)

24. 3rd EICOON SCHOOL on Science and Technology of Renewable and Clean Energy Sources, April 30

– May 1, 2012, Kolkata, India, Integreated Photoelectrcohemical and photovoltaic devices, (invited

speaker)

25. 6th Asian Conference on Electrochemical Power Sources (ACEPS-6), Chennai, Jan 6-8, 2012, Direct

Hydrocarbon Fuel Cell Technology Synthesis and Characterization of SDC Nano-Powder by Glycine -

Nitrate Combustion Synthesis for Its Potential Application as an electrolyte in IT-SOFC (invited talk)

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26. 3rd International Conf on Fuel Cell & Hydrogen Technology (ICFCHT), Kuala Lumpur, Nov 22-23,

2011, Direct hydrocarbon SOFC, (Invited talk)

27. International symposium on portable fuel cell, Changxing, China, Nov 2-4, 2010, Effect of Re on Pt-Sn/

C catalyst for direct ethanol fuel cell, (Invited speaker); Pt-Au/C anode catalyst for direct glucose

alkaline fuel cell, (Invited speaker)

28. Gordon Research Conference on Fuel Cell, Bryant University, Smithfield, RI, USA Aug 1-6, 2010,

Development of electrocatalysts for direct glucose fuel cell (Invited)

29. 3rd World Hydrogen Technology Convention (WHTC), New Delhi, Aug 26-28, 2009, Development of

Fuel Cell Technology at IIT Delhi (Keynote speaker)

30. 60th Annual session of IIChE, Chemcon 2007, Kolkata, Dec 27-30, 2007, Chemical Engineering

curriculum: outlook, Invited Lecture

31. Can Soc Chem Eng Conf., Edmonton, Alberta, Canada, Oct 28- Oct 31, 2007, Oil droplet deformation

and detachment on solid substrate in shear field, Invited Talk

32. 59th Annual session of IIChE, Chemcon 2006, Ankleshwar, Dec 27-30, 2006 (Indo-Canadian

Symposium), Future direct of fuel cell technology: India’s Perspective’ (Session keynote Speaker)

33. 12th National Conf. on Surfactant, Emulsion and Bio-colloids, NATCOSEB XII, Imphal, Nov 9-11, 2005,

Prediction of surface tension of organic liquids using Artificial Neural Networks Plenary Lecture

34. Diamond Jubilee celebration, IICT, Hyderabad, Aug 2004, Direct Alcohol Alkaline Fuel Cell, Plenary

talk

Course Material Developed

1. National Programme on Technology Enhanced Learning (NPTEL) web based course development for

UG and PG students: Fuel Cell Science and Technology; Completed in 2013. This a project funded by

MHRD and coordinated by IIT Madras

2. e-PG Pathshala web based content development for post graduate students: Energy Materials. This funded

by MHRD-UGC and coordinated by Delhi University completed in Feb 2016.

Short term Courses/Seminars/Workshop organized

1. National workshop on hydroprocessing in petroleum refining industry, Jan., 21 & 22, 2000 at

IndianOil Institute of Petroleum Management (IIPM), Gurgaon, Haryana

Course coordinator – Dr. S. Basu Please refer Chemical Weekly March 7, 102-103 (2000)

Sponsored by LKMT, IOCL, EIL, IIChE NRC

2. SERC school on Computational Fluid Dynamics and Its Engineering Applications, Aug 22-26, 2005,

IIT Delhi (Dr. S. Basu one of the course coordinators) Sponsored by DST

3. National Seminar on Challenges in Fuel Cell Science and Technology, Dec 1 and 2, 2006, IIT Delhi

22

Convener: Dr. S. Basu (Sponsored by DST)

4. National Workshop on Modeling and Simulation in Process Industry, June 9-13, 2009, IIT Delhi

Course coordinators Dr. S. Basu, Sponsored by LKMT, PetroFed, IOCL, Honeywell, IIT Delhi

5. Indo-US workshop on Emerging Issues in Energy and Environment Security: Challenges and Research

Opportunities, New Delhi, Dec 12-15, 2010 (Sponsored by IUSSTF, NSF, DST, MNRE, IITD)

Ph.D. & Master Thesis Supervision

1. Ramji Dixit, Photochemical CO2 conversion to chemical fuel, Ph.D. (in progress)

2. Biswajit De, Micro regenerative fuel cell, Ph.D. (in progress)

3. Aditya Singh, Generation of hydrogen by water splitting, Ph.D. (in progress)

4. Baijanath, SOFC degradation analysis Ph.D. (in progress)

5. Ravi Tejasvi, Photoelectrochemical splitting of water and CO2 reduction, Ph.D. (in progress)

6. Shahid Md. Direct Methane SOFC: Anode development, Ph.D. (in progress)

7. Appan Choudhury, Development Novel Biosensors for Dopamine Ph.D. (in progress, jointly)

8. Ieeba Khan, Low temperature Cerai-carbonate based electrolyte for fuel cells Ph.D. (in progress)

9. Shaneeth (PT, ISRO), PEMFC degradation studies at the cathode (2012) Ph.D. (in progress)

10. Harikrishnan, PEM degradation diagnostic Ph.D. (Synopsis submitted)

11. Nimai Bhandari, Non PGM catalyst for oxygen reduction reaction, Ph.D. (Synopsis subm, jointly)

12. Sudheer Choudhary, Modelling of Grid Independent Integrated PV H2 Energy System, M.Tech 2017

13. Rama Devi Tentu, Photoelectrochemical water splitting on ZnGa-Al oxides M.Tech 2017

14. Neetu Kumari, CO2 electro-reduction on Ceria based anode in SOEC Ph.D. (2017)

15. Amandeep Jindal, Mesoporous carbon nitride as support and micro fuel cell Ph.D. (2017)

16. Shyamol Mondal, Preparation of SNS (Sodium doped SrSiO3) by sol-gel technique M.Tech 2016

17. Praduman Arora, Development of TiO2-gC3N4 material based for water splitting M.Tech 2016

18. Akansha Srivastava, WO3 as Photoelectrochemical conversion of CO2 to organics M.Tech 2016

19. Amol Shegokar, Synthesis and characterization of Sn/ZSM catalyst for electroreduction of CO2 M.Tech

(2015)

20. Anu Kheveria, Carbon dioxide reduction to fuels using solid oxide electrolysis cell, M.Tech (2015)

21. Deepak Gautam, Enhancement of electrocatalytic properties of carbon nitride catalysts for ORR in fuel

cell, M.Tech (2015)

22. Pankaj Tiwari, Development of anode material for SOFC, Ph.D. (2015)

23. Criti Mahajan, Novel Design of Flow Path and Spacers for Reverse Electrodialysis, M.Tech (2014)

24. Aseem Sharma, Transient Behaviour of Solid Oxide Fuel Cell Anode Degradation Using Percolation

Theory, M.Tech (2014)

25. Garima Garg, Nano-Cu anode for CO2 reduction to methanol, M.Tech (2014)

26. Gurpreet Kaur, Development of anode for direct hydrocarbon SOFC, Ph.D. (2014)

27. Rajelakshmi Chokalingum, ‘Low Temp Solid Oxide Fuel Cell’, Ph.D. (2014)

28. Varagunapandian, Electro-reduction of oxygen and oxygen evolution reaction, Ph.D. (2014)

29. Jyoti Tayal Goel, Development of direct ethanol Fuel Cell Ph.D. (2014) (Dr A. V. Rama Rao

Foundation’s Best Ph.D. thesis and research award in chemical engineering 2016) 30. Debashish Biswal, CO2 electro-reduction to formic acid, M.Tech (2013)

31. Kunal Goel, SOFC modeling M.Tech Dual (2013)

32. Mathew George, Studies on Pourbaix diagram M.Tech Dual (2013)

33. Puneet Yadav, Simulation of an integrated device for converting water, carbon dioxide and light to

electrical energy and organics, M.Tech Dual (2012)

23

34. Tushar Johri, LSCM anode catalyst synthesis and characterization for application in SOFC, M.Tech.

(2012)

35. Manoj Kumar, Anode material from SOFC – LST, YST, NBST, M.Tech. (2012)

36. Ranoo Pathak, Modelling of direct glucose fuel cell M.Tech. (2012)

37. Debika Basu, ‘Direct glucose fuel cell’ Ph.D. (2012)

38. Shashank Sood, Continuous Direct glucose fuel cell based on AEM electrolyte M.Tech (2011)

39. Sunil Kumar, Electrolyte material (GSDC-Na2CO3) for Low temperature solid oxide fuel cell M.Tech

(2011)

40. Chunky Satija, Cathode catalyst SnO2-Al2O3 for CO2 electro-reduction to organic compounds, M. Tech

(2011)

41. Dipak Madnani, Membrane for PEM water electrolyzer development M.Tech (2011)

42. Jyothsna Annepu, CO2 electro-reduction to organic compound, Ph.D (left to USA)

43. Bhuvnesh Rawat, Electrocatalyst for direct ethanol fuel cell, M. Tech. 2010

44. Snehil Jain, Low temperature Carbonate-LDC solid oxide fuel cell, M.Tech (dial) 2010

45. Abhijay Awasthi, PEM water Electrolyzer: modeling and experimental, M.Tech (dual) 2010

46. Chinmoy Pande, Electroxidation studies of bi-metallic and tri-metallic electrocatalyst for alcogol

oxidation M.Tech (2009)

47. Depesh Mohan, Direct alcohol alkaline fuel cell stack development M.Tech (2009)

48. Ajay Kathuria, Enhanced oil recovery study in rotating disc equipment, M.Tech (2009)

49. A. Gupta “Oil droplet detachment from solid substrate in shear field” Ph.D. (2009)

50. Dharmendra, Hydrogen generation using alkaline electrolyzer, M.Tech. (2008)

51. Yashbardhan Kapoor, Direct Alcohol Alkaline Fuel cell, M.Tech. (2008)

52. Praveen Kumar, Product analyses of direct ethanol fuel cell, M.Tech (2008)

53. Ravi Reddy, Flow past a porous permeable sphere near a wall M.Tech (2008)

54. H. Pramanik “Development of power supply based on direct alcohol fuel cell” Ph.D. (2008)

55. Snehalata, ‘Modeling direct alcohl fuel cell’, M.Tech, (2007) (Jointly with EPFL Lucern Switzerland)

56. Sonker, K ‘Experimental study on oil droplet detachment from solid substrate’ M.Tech. (2007)

57. T. Reddy Keshava‘Modeling of wetting behavior of MEA used in DAFC’ M.Tech. (2007)

58. Shivendra Prakash ‘Hydrogen generation from alkaline electrolyzer’ M.Tech dual (2007)

59. Shefali Srimali ‘CFD modeling of droplet detachment from rotating disc’ M.Tech dual (2007)

60. D. Gaurav, ‘Use of anion exchange membrane in AFC’, M. Tech (2006)

61. Dubey, D., ‘Wetting behavior of different membrane used in PEMFC’, M.Tech (2006)

62. Angshuman Agarwal ‘Modeling of direct ethanol fuel cell’ M.Tech dual (2006)

63. A. Verma “Power generation from methanol, ethanol and NaBH4 using flowing alkaline electrolyte fuel

cell” Ph.D. (2006)

64. Avinash Kumar ‘Preparation of whipping cream from palm kernel oil’ M. Tech. (2005)

65. Lokesh Gupta, ‘Oil droplet detachment from solid substrate in the presence of surfactants – stationary

condition’ M.Tech (2005)

66. Hemany Ukey ‘Studies on Alkaline Fuel Cell and Use of Anion Exchange Membrane’ M.Tech (2005)

67. V. Gupta “Drop attachment and recoil on solid substrate in the presence of surfactants” M.Tech. (2004)

68. P. Kumar “Continuous dye removal from water by liquid-liquid extraction using reverse micelles”

M.Tech (2003)

69. V. Singla “Particle capture by porous permeable sphere”. M. Tech. (2003)

70. K. V. Singh “Use of sodium boro hydride as fuel in fuel cell”. M. Tech (2003)

71. P. Pandit "Removal of ionic dyes from water by liq-liq extraction using reverse micelles" Ph.D. (2003)

72. C. Sarker “CFD analyses of flow through and around permeable sphere” M.Tech. (2002)

73. S. Syal, “Model development for suspension polymerisation” M.Tech (2002)

74. S. Gupta, “Prediction of surface tension of liquid through ANN”, M.Tech (2002)

75. S. Das, “Kinetics study of emulsion polymerisation of styrene” M. Tech. (2001)

24

76. V. Choudhury, "Simultaneous flocculation and sedimentation study of Kaolinite clay" M. Tech. (2000)

77. P. R. Malpani "Studies on removal of organic dyes from effluent water using colloidal gas apahrons"

M. Tech. 1999

Postdoctoral Fellows Supervised 1. Dr Bharti Patil (2010-2012) – MNRE Fellow

2. Dr Dyuti Pandey (2011-2015) – UGC fellowship

3. Dr Debika Basu (2012-2013) – CSIR RA

4. Dr Merajul Islam (2014-present) CSIR RA

5. Dr Pankaj Tiwari (2015-present) – ONGC Project

6. Dr Sankalpita Chakraborty (2016-present) DST NPDF

7. Dr Ayan Mukherjee (2017-present) DST NPDF

8. Dr Kapil Sood (2017-present) DST NPDF

9. Dr Debabrata Chandra (2017-present) DST NPDF

10. Dr Namita Singh (2017-present) DST NPDF

Membership of professional bodies Fellow National Academy of Science of India (NASI)

Fellow of Institute of Engineers, (IE)

Fellow of Indian Chemical Soc. (ICS)

Life member of Indian Society for Surface Science and Technology (ISSST)

Life member of Indian Institute of Chemical Engineers (IIChE)

Life Member of Society for Materials Chemistry

Former Executive council member of IIChE; (2005-07)

Secretary IICHE NRC 2003-2008

Chairman IIChE (NRC) 2011-2015

Former Editor of Ind. Chem. Engr. Journal published by IIChE (2006-07)

Membership in Academic & Research Advisory Boards

Expert Committee ‘National R&D program for Chemical Sector’ Ministry of Chemicals and

Fertilizers; 2016-present

National Committee on ‘Grievances of the Chemical Industry in India’, Ministry of Chemicals and

Fertilizers; 2016-present

Member, R&D Expert Committee for Future Strategy, Oil Indian Development Board (OIDB) (2016)

Member of Lovraj Kumar Memorial Trust (LKMT), New Delhi; 2015-present

Member, Board of Studies (BOS), University of Petroleum Energy Studies (UPES), Dehradun

2014-2015

Member of BOS, GGS Indraprastha University (GGSIPU), School of Chemical Tech., Delhi

2012-2014

National Committee Member, Fuel Cell, Roadmap to Hydrogen Economy, Ministry of New and

Renewable Energy (MNRE); 2014-present

CII expert committee Fuel cell Technology – Roadmap to Hydrogen Economy India (2013)

Board Member, Growdiesel Ltd.; 2008-2010

INAE Fuel Cell Technology expert committee member (2007)