Dr.Arnolds Ubelis ([email protected]) The project: “DEVELOPMENT OF NANOTECHNOLOGY BASED BIOSENSORS...
-
Upload
wesley-day -
Category
Documents
-
view
234 -
download
0
Transcript of Dr.Arnolds Ubelis ([email protected]) The project: “DEVELOPMENT OF NANOTECHNOLOGY BASED BIOSENSORS...
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
The project:The project:““DEVELOPMENT OF NANOTECHNOLOGY DEVELOPMENT OF NANOTECHNOLOGY BASED BIOSENSORS FOR AGRICULTURE BASED BIOSENSORS FOR AGRICULTURE
– BIOSENSORS-AGRICULT”– BIOSENSORS-AGRICULT”PIRSES-GA-2012-318520PIRSES-GA-2012-318520
DurationDuration 01.09. 01.09.2012-2012-31.08. 31.08. 20162016BudgetBudget 292,600.00292,600.00 Euro Euro
PEOPLEPEOPLE, , MARIE CURIE ACTIONSMARIE CURIE ACTIONS
Call: FP7-PEOPLE-2012-IRSES Call: FP7-PEOPLE-2012-IRSES International Research Staff International Research Staff
Exchange SchemeExchange Scheme
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
CoordinatorCoordinator
Dr.Arnolds UbelisDr.Arnolds [email protected]@latnet.lv
Association FOTONIKA-LVAssociation FOTONIKA-LVUniversity of LatviaUniversity of LatviaScientific secretary Scientific secretary
Dr.Roman ViterDr.Roman [email protected][email protected]
Technical assistant – Darta Ubele (Technical assistant – Darta Ubele (Darta Darta [email protected]@gmail.com) )
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
EU Project OfficerEU Project Officer
DAHON OLIVIERDAHON OLIVIEREuropean CommissionEuropean Commission
Research Executive AgencyResearch Executive AgencyUnit P2Unit P2
COV2 14/52COV2 14/52B-1049 Brussels/BelgiumB-1049 Brussels/Belgium
+32 2 296 4372 +32 2 296 4372 , , [email protected]@ec.europa.eu
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
ConsortiumConsortium
ParticipantParticipant Legal entityLegal entity DepartmentDepartment
1. Riga, 1. Riga, LatviaLatvia
University of Latvia,University of Latvia,LULU
Association FOTONIKA-LV,Association FOTONIKA-LV,((http://www.lu.lv/http://www.lu.lv/Fotonika-lvFotonika-lv//) )
2. Linköping, 2. Linköping, SwedenSweden
University of Linköping, University of Linköping, SwedenSweden
Department of Physics, Chemistry and Department of Physics, Chemistry and Biology(IFM) (Biology(IFM) (www.ifm.liu.sewww.ifm.liu.se ) )
3.3.Montpellier, Montpellier, FranceFrance
CNRS, Montpellier, CNRS, Montpellier, FranceFrance
European Institute of MembranesEuropean Institute of Membranes(www.iemm.univ-montp2.fr)(www.iemm.univ-montp2.fr)
4. Kyiv, 4. Kyiv, UkraineUkraine
National University of National University of Life and Environmental Life and Environmental SciencesSciences
Department of Molecular Biology, Department of Molecular Biology, Microbiology and BiosecurityMicrobiology and Biosecurity ((http://nubip.edu.ua/en/)http://nubip.edu.ua/en/)
5. 5. OdessaOdessa, , UkraineUkraine
Odessa National I.I. Odessa National I.I. Mechnikov University Mechnikov University
Faculty of Physics,Faculty of Physics, Faculty of Biology Faculty of Biology and Faculty of Chemistryand Faculty of Chemistry((www.onu.edu.uawww.onu.edu.ua,) ,)
6.Minsk, 6.Minsk, BelarusBelarus
National Academy of National Academy of Sciences of BelarusSciences of Belarus
Institute of Biophysics and Cell Institute of Biophysics and Cell Engineering of NASB, Engineering of NASB, (http://ibp.org.by/en/)(http://ibp.org.by/en/)
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Exchange schemeExchange scheme
EU Non-EU
Staff exchange
Research teams will implement::-experimental work;-seminars, workshops;-summer school, conferences;-research training days.
Benefits and outcomes :-scientific publications;-knowledge transferre;-ideas for new projects;- new proposals.
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Mutual Exchange program:
Scholars go abroad either as Experts (senior researchers) or as Trainees (young researchers) for a period of ca. three months;
Participating in research; Teaching or research training; Additional input to this IRSES research project, Master Thesis,
PhD thesis or similar projects on a biosensors activity, invited lectures;
Exchange balance: EU --- non-EU countries: in total ca. 53 PM spent abroad; Non –EU --- EU countries: in total ca. 101 PM spent in EU.
Time frame for staying abroad preferably: Minimum 1 month, maximum 12 months per researcher(more than 1 location possible)
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Totally Totally for 4 project’s years - for 4 project’s years - 154 months/visits154 months/visits = 292 600 = 292 600 €€The first reporting period (1-24months) - The first reporting period (1-24months) - 9696 months/visits months/visits = 182 400 = 182 400 €€
The second reporting period (24-48months) - The second reporting period (24-48months) - 5858 months/visits months/visits = 110 200 = 110 200 €€
ParticipantParticipant Number of Number of months/ visitsmonths/ visits x x €€
1. Riga, Latvia1. Riga, Latvia 3030 x 1900 = 57 000 € x 1900 = 57 000 €
2. Linköping, Sweden2. Linköping, Sweden 1616 x 1900 = 30 400 € x 1900 = 30 400 €
3. 3. Montpellier, FranceMontpellier, France 77 x 1900 = 13 300 € x 1900 = 13 300 €
4. Kyiv, Ukraine4. Kyiv, Ukraine 3131 x 1900 = 58 900 € x 1900 = 58 900 €
5. 5. OdessaOdessa, Ukraine, Ukraine 3939 x 1900 = 74 100 x 1900 = 74 100 € €
6.Minsk, Belarus6.Minsk, Belarus 3131 x 1900 = 58 900 x 1900 = 58 900 € €
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Table 2: List of Work Packages
Work package
n°
Work package titleInvolved teams
(lead team in bold)Start
month
End mont
h
1Design and investigations of
biosensitive layers
Riga, Montpellier, Linköping, Odessa,
Minsk, Kiev.1 20
2Technology development of
optical fiber and on chip sensor systems
Riga, Montpellier, Linköping, Odessa,
Minsk, Kiev.12 27
3
Theoretical modelling of surface interaction between
biomolecules and biosensor surface
Riga, Montpellier, Linköping, Odessa,
Minsk, Kiev.19 48
4
Sensitivity measurements of optical fiber and on-chip
laboratory made biosensors to different toxins
Riga, Montpellier, Linköping, Odessa,
Minsk, Kiev.30 48
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Summer Schools
The first summer school Location: Riga, Latvia Time: end of August 2013
The second summer school Location: Odessa, Ukraine Time: beginning of June 2014
The third summer school Location: Odessa, Ukraine Time: end of August 2016
Modules: (suggestions) Methods of academic research and writing for PhDs
“state-of-the-arts Theory of the scientific fields Experimental methods Data processing (error limits and systematic mistakes)
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Conference ‘Biosensors for agriculture’
Responsibility ONU
Where Odessa, Ukraine
When August 2016
In cooperation with 3DOXIDES (FR), WU&Surfix (NL),
Ldiamon (ES), Sud-West photonics (GE)
Topic(s): Nanomaterials and Methods for detection of biomolecules
Participants besides project parnters
EU, USA and Asia
Audience Researchers, students, PhD students,
SMEs community
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Timeframe, Milestones, Reporting: Interim report project months 24th;
Milestones:1) Proposal of algorithms for data management of
biosensing measurements. Draft report or draft of publication.
2) Insight and systematisation of state-of the-art knowledge on application of nanomaterials in biosensors
3) Survey of possibilities and elaboration of plans for field experiments to investigate processes on the surface of biosensitive layers.
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Activities 2012Project months 1 to 4;
a) Planned – to start secondment visits in November;b) Delayed - due to readiness of consortia to susstain the
success by new complementary projects: - involvement of consortium members in writing and submition FP7 –PEOPLE-2013 –
ITN project proposal on 22.11.2012:
METONANOSENS’ Nr. ID 607534) - involvement of consortium members in writing and submision of FP7 –PEOPLE-2013 –IAPP project proposal on 16.01.2013: METOXNANOBIO Nr. Nr. ID612325
- overestimation of capacity to deal with formalities; - other reasons: annual reporting, exams and re-
asignement of contracts in non EU institutions.C) Activities of consortium performed in addition beyond
planned: see details in slides Nr. 29, 31, 34
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Short referencies to the Scientific Content of the project in the next
slides
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
The The Project Project ConceptConcept
Biotechnology
Nanomaterials
Optical technology
Biosensors:Application in agriculture
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Needs for agricultureNeeds for agriculture
-toxins, plant and animal diseases-toxins, plant and animal diseases -rapid express methods of diagnostics -rapid express methods of diagnostics -selectivity to one sort of biomolecules-selectivity to one sort of biomolecules -low cost of monitoring devices-low cost of monitoring devices
Biosensors – are the solutionBiosensors – are the solution
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Biosensor definition (by Wikipedia)Biosensor definition (by Wikipedia)
A biosensor is an analytical device for the detection of an analyte A biosensor is an analytical device for the detection of an analyte that combines a biological component with a physicochemical that combines a biological component with a physicochemical detector that cannot detect.detector that cannot detect.
It consist of:It consist of: the sensitive biological element the sensitive biological element (biological material(biological material, , e.g. tissue, e.g. tissue,
microorganisms, organelles, cell receptors, enzymes, antybodies, nucleic asids, etc)microorganisms, organelles, cell receptors, enzymes, antybodies, nucleic asids, etc)
the transducer or the detector element the transducer or the detector element (works in a physicochemical way; (works in a physicochemical way;
optical, piezoelectric, electrochemical, etc.)optical, piezoelectric, electrochemical, etc.) that transforms the signal resulting that transforms the signal resulting from the interaction of the analyte with the biological element into from the interaction of the analyte with the biological element into another signal another signal (i.e., transducers)(i.e., transducers) that can be more easily measured and that can be more easily measured and quantified; quantified;
biosensor reader device with the associated electronics or signal biosensor reader device with the associated electronics or signal processors that are primarily responsible for the display of the processors that are primarily responsible for the display of the results in a user-friendly wayresults in a user-friendly way..
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Advantages of Advantages of nanomaterialsnanomaterials
-low dimensions-low dimensions -quantum confinement effects-quantum confinement effects -high surface area-high surface area -affinity to bio molecules-affinity to bio molecules -many methods of depositions-many methods of depositions
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Optical transducersOptical transducers
Indifferent to electromagnetic fieldsIndifferent to electromagnetic fields:: Stable in aggressive environmentStable in aggressive environment;; Precise measurementPrecise measurement;; Low cost and small size Low cost and small size (optical fibers)(optical fibers);;
Able to create network and distance Able to create network and distance sensingsensing..
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Who will participateWho will participate
Experienced researchers Experienced researchers (professors, senior (professors, senior researchers, PhD holders with experience more than 4 researchers, PhD holders with experience more than 4 years)years);;
Early stage researchers Early stage researchers (experience less than (experience less than 4 years after obtaining MS degree)4 years after obtaining MS degree);;
Managers, engineers, programmers and Managers, engineers, programmers and technical stafftechnical staff
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Implementation of the Implementation of the projectproject::
Linköping
KievOdessa Minsk
-Deposition of metal oxide nanostructures with CVP method; -Structural, optical and electrical characterization; -Bio fictionalization of nanostructures.
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Riga
KievOdessaMinsk
-Characterization of optical fiber biosensors;-Characterization of biochips.
Implementation of the Implementation of the projectproject::
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)
Implementation of the Implementation of the projectproject::
Montpellier
KievOdessaMinsk
-Deposition of metal oxide nanostructures with ALD method; -Structural, optical and electrical characterization;-Bio fictionalization of nanostructures .
Dr.Arnolds Ubelis ([email protected] Ubelis ([email protected]).lv)Dr.Arnolds Ubelis ([email protected])
Logo – Logo – main main and and additionadditional al modificmodifications ations ideasideas