RIC
Regional Information Centre
for Scientific and Technological Cooperation with EU
 

Scientific Organisation Questionnaire

Voronezh State Technical University 
The type of the organization  
Country RU 
Region Voronezh region 
City Voronezh 
Coordinator research assistant,  Kopyitin Michael N.
Address RU, Voronezh region, 394026 Voronezh VSTU, 14 Moskovskiy pr.
Telephone +7-4732-461207 
Fax
Email
web-page http://www.vorstu.ac.ru/
Brief Description
Offers of high school on participation in joint researches with the European universities within the limits of thematic priorities of the Seventh frame program of scientifically-technological development of EU
Cooperation Information And Communication Technologies - ICT Cognitive Systems, Interaction, Robotics
Cognitive systems in complex objects optimization
The brief description of the project  The development of cognitive systems for weakly formalized optimization problems is the area of investigation. Such problems arise in search of optimal variants of complex systems (technical, industrial, information, social and economic). Their feature is the impossibility of the optimization model definition in analytic form. Criteria and restrictions in such problems are usually set non-analytically: verbally, the schedules, modeling algorithms, tables of the data, etc. It complicates an aprioristic estimation of problems characteristics and reduces an opportunity of a choice of effective optimization procedures. The cognitive approach is offered to be used for decision of this problem. The cognitive approach for making optimum decisions assumes studying extremal properties of objects during optimization and accumulation of this knowledge for subsequent use. The optimization task decision is carried out under the control of intellectual procedures. Intellectual procedures define strategy of the task decision on the basis of knowledge which has been saved up during use of various optimization methods. Thus, the purpose of project is the development of intelligence cognitive decision-making support system used by optimization of complex objects and processes (information systems, social and economic systems).
Expected results  Complex of models, algorithms and software support for weakly formalized objects optimization оn a basis of the cognitive approach.
Keywords  
Published works  
Date of last change of the project  19.02.2008
Family Name and first name of a contact person  Lvovich Jakov E.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of CAD and Information Systems
Address  RU, Voronezh region, 394026 Voronezh VSTU, 14, Moskovski pr.
WWW address (URL)   http://www.vorstu.ac.ru/
E-mail address  
Telephone  +7-4732-551954
Telefax  +7-4732-390658
The countries of partners under the project  EU countries
Types of the project
  • Small or medium-scale focused research project) (STREP)
 
Nanosciences, Nanotechnologies, Materials and New Production Technologies - NMP Nanosciences and Nanotechnologies
Heterogenous functional structures with universal application
The brief description of the project  Project is guided to development and production of heterogeneous functional nanostructures of different purposes with nanoscale granules and layer thickness. During the RFFI projects realization (NN 02-02-1602, 05-02-17012 and 06-02-81035) we had developed the method for preparation of nanocomposites in wide range of metallic phase concentration. Ion-beam sputtering technology (with two (three) simple or one compound target) had been used for sample preparation. In present project the realization of the possibilities of this method is planning. We suppose to use targets based on ferroelectric with giant magnetostriction, dielectric targets (ZrO2, MgO2), ferromagnetics and semiconductor structures (Si, InO, etc.).
Expected results  During the project realization development of new functional nanostructures with high magnetoelectric effect, giant magnetostriction values, high-sensitive to magnetic field thermoelectric power, and gas-sensor layers with high thermal stability are planned.
Keywords  synthesis multilayer structures nanocomposites magnetoelectric and magnetoresistive effects thermoelectric power gas sensor
Published works  
Date of last change of the project  11.06.2007
Family Name and first name of a contact person  Kalinin Yuriy E.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Solid State Physics
Address  RU, Voronezh region, 394026 Voronezh VSTU, 14, Moskovski pr.
WWW address (URL)   http://www.vorstu.ac.ru/
E-mail address  
Telephone  +7-4732-466647
Telefax  +7-4732-463247
The countries of partners under the project  Germany, Italy, France
Types of the project
  • Collaborative project (CP)
 
Regular systems of oriented carbon nanotubes (CNT) preparation on special catalytic substrates for flat emission displays
The brief description of the project  The project is devoted to regular systems of oriented carbon nanotubes (CNT) preparation on special catalytic substrates for flat emission displays. Originality of the project is not a new method of CNT preparation (this method is already known), not using the catalysis, but using the catalytic matrix which is formed on substrate by means of sputtering, components and deposition regimes which allow to form nanoscale particles. Preparation of such substrate is complex and specific problem. In present there are only a few scientific groups in whole world which wield this technology. Nanotech Ltd includes staffers of investigation group which are experienced in this technology and they have been working with nanocomposites more than 10 years and therefore the applicant manages to realize this project. Such lead-up in regular systems CNT preparation is not using in present time. In 2006 the application for the patent had been tendered.
Expected results  The first step in the project is developing the technology and creation of pilot specimen of emission matrix for flat emission display. Competitors for the emission displays will be not from the analog products (there no such products in present) will be the existing TFT-LCD and PDP.
Keywords  synthesis carbon nanotubes (CNT) emission matrix emission properties emission display
Published works  
Date of last change of the project  21.06.2007
Family Name and first name of a contact person  Kalinin Jury E.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Solid State Physics
Address  RU, Voronezh region, 394026 Voronezh VSTA, 14, Moskovski pr.
WWW address (URL)   http://www.vorstu.ru/
E-mail address  
Telephone  +7-4732-466647
Telefax  +7-4732-463247
The countries of partners under the project  Germany, Italy, France
Types of the project
  • Collaborative project (CP)
 
FP7-NMP-2009-EU-Russia: NMP-2009-1.2-3 (C) Sensing of toxic and explosive agents in air based on metal oxide semiconductor nano-structured materials
The brief description of the project  Research team posses of AC- and DC-magnetron sputtering of metal and ceramic targets in the ambient of Ar+О2, investigation techniques for analysis of atomic composition, structure, morphology and electrical-physical parameters of the samples, can design and fabricate different integrated test structures and sensors by modern microelectronic technology (photolithography, multilayer metallization, ultrasonic binding etc.)
Expected results  -
Keywords  Synthesis of sensitive layers Electrical-physical, structure properties Gas sensitive properties Sensor"s design Sensor"s fabrication technology
Published works  
  • E.S.Rembeza, S.I.Rembeza, T.V.Svistova “Electrophysical properties of gas sensitive films SnO2 doped with palladium” - Sensors & Transducers Magazine, v.40, N 2, p. 145-151, 2004.
  • S.I.Rembeza, T.V.Svistova, E.S.Rembeza, V.V.Milashechko "Influence of platinum dopants on the properties of SnO2 films for gas sensors” – Microsystems, v.3, p.21-24, 2004.
  • S.I.Rembeza, T.V.Svistova, E.S.Rembeza, G.V.Gorlova “Electrical and optical properties of semiconductor films on the base of SnO2” – Electrical Engineering, v. 10, p. 10-14, 2004.
  • E.S.Rembeza, S.I.Rembeza, E.P.Domashevskaya, M.V.Grechkina, B.L.Agapov "Influence of the atomic composition of oxide nanocomposites on the base of SnO2 on their structure” – Nano- and Microsystems, v.7, p. 25-28, 2005.
  • I.A.Popova, A.P.Pavin, E.S.Rembeza, E.P.Domashevskaya “Fractal analysis of disordered nanocrystalline tin dioxide films” - Proceedings of Russian Academy of Science, ser. "Physics", v.69, N8, p. 1210-1213, 2005.
  • E.S.Rembeza, S.I.Rembeza, T.V.Svistova, O.I.Borsyakova “Physical properties of SnO2 films subjected to incoherent pulsed radiation” – Semiconductors, v.40, N 1, p. 55-58, 2006.
  • E.S.Rembeza, S.I.Rembeza, T.V.Svistova, N.N.Dyrda "Methods of enhancement gas sensitive properties of SnO2 films for gas sensors" - Proceedings Universities of Russia, ser. "Electronics", N1, p.3-8, 2006.
  • E.S.Rembeza, T.V.Svistova, S.I.Rembeza, A.S.Komarova, N.N.Dyrda "Structure and electrical-physical properties of SnOx:MnOy nanocomposite” – Nano- and Microsystems, v.4, p. 27-28, 2006.
  • V.I.Mitrokhin, S.I.Rembeza, E.S.Rembeza, A.A.Rudenko “Inelastic relaxation in tin dioxide thin films” – Solid State Phenomena, v. 115, p. 275-278, 2006.
  • E.S.Rembeza, T.V.Svistova, S.I.Rembeza, A.S.Komarova, N.N.Dyrda "Nanocomposites SnOx:MnOy for microelectronic gas sensors” – Nano- and Microsystems, v.11, p. 23-25, 2006.
  • E.S.Rembeza, S.I.Rembeza, B.M.Sinelnikov, T.V.Svistova, E.P.Domashevskaya “Thin film nanocomposites for gas sensors” - Journal of the Rare Metal Materials and Engineering, v.35, suppl. 3, p. 33-35, 2006.
  • E.S.Rembeza, S.I.Rembeza “Nanocomposites Sn-Si-O and Sn-Mn-O for gas sensors“ - Sensors & Transducers Journal, v.85, N11, p. 1739-1744, 2007.
  • E.S.Rembeza, S.I.Rembeza, E.A.Tarasova, M.V.Grechkina "Structure and electrical-physical properties of nanocomposite Sn-Y-O” – Nano- and Microsystems, v.6, p. 19-22, 2008.
  • S.I.Rembeza, T.V.Svistova, E.S.Rembeza, G.V.Gorlova "Semiconductor metal oxide gas sensor” - Patent of Russian Federation N 2206082 of 10.06.2003.
  • S.I.Rembeza, V.A.Buslov, O.G.Vikin, E.S.Rembeza, G.A.Vikin “Solid integral gas sensor” - Patent of Russian Federation N 2257567 of 19.05.2005.
  • S.I.Rembeza, T.V.Svistova, E.S.Rembeza, N.N.Dyrda “Method of fabrication of sensitive element for gas sensors” - Patent of Russian Federation N 2307346 of 27.09.97.
Date of last change of the project  24.12.2008
Family Name and first name of a contact person  Rembeza Stanislav I.
Position in Organization  Head of Chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Semiconductor Electronics and Nanoelectronics
Address  RU, Volgograd region, 394026 Voronezh VSTU, 14, Moscow av.
WWW address (URL)   http://portal.vorstu.ru; http://www.vorstu.ac.ru/kafedrry/ftt/kaf/pp
E-mail address  
Telephone  +7-4732-437695
Telefax  +7-4732-463277
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
FP7-NMP-2009-EU-Russia: NMP-2009-1.2-3 (B) Wireless Surface Acoustic Wave Physical Sensors for operation in a wide temperature range
The brief description of the project  The experience of research team can be used for design and fabrication of selective photo-piezo electrical sensors of optical radiation based on surface acoustic waves for optoelectronics and optical location in the range of infrared, visible and ultraviolet waves. The research team posses modern methods of microelectronic technology for fabrication of integrated structures, equipment for analysis of atomic composition, structure, morphology, electrical-physical and optical parameters of samples.
Expected results  -
Keywords  Surface acoustic waves Photo-electrical phenomena in semiconductors Photo-piezo electrical sensors Barrier structures Sensors fabrication technology
Published works  
  • Mitrokhin V. I., Rembeza S.I., Sviridov V.V., Yaroslavtsev N.P. Acoustooptical Effect In GaAs with Deep Centers //Journal of Advanced Materials. – 2001. – № 2. – P. 98-103
  • Mitrokhin V. I., Rembeza S.I., Sviridov V.V., Yaroslavtsev N.P. Effect of Optical Radiation on Internal Friction in Piezoelectric Semiconductors with Deep Level Centers // Semiconductors. – Vol 36, – № 2. – 2002, – P. 130-135.
  • Mitrokhin V. I., Rembeza S.I., Yaroslavtsev N.P. Method of ion doze doping control. Patent № 2204872, Russia, Н01 L 21/66. Published 04.10.2003.
  • Belonogov E.K., Darinskiy B.M., Il"in A.S., Mitrokhin V.I., Moshnikov V.A. Internal friction in films based on Si3N4 and CuSe // Proceedings of Russian Academy of Science, ser. "Physics". – 2005. – V. 69 –№ 8. – P. 1168-1170.
  • Mitrokhin V. I., Rembeza S.I., Stukalov V.A. Stable transmission of discrete signals from physical sensors// Sensors and Systems. – 2005 – № 6. - P. – 61-65.
  • Mitrokhin V. I., Rembeza S.I., Rudenko A.A. Ligh-Induced Mechanical Oscillation in CaAs Single Crystals // Technical Physics Letters, 2006.– vol. 32, No. 6, – pp. 479-480.
  • V.I.Mitrokhin, S.I.Rembeza, E.S.Rembeza, A.A.Rudenko «Inelastic relaxation in tin dioxide thin films”. - Solid State Phenomena. – V.115. – P. 275-278. – 2006.
  • Mitrokhin V. I., Rembeza S.I., Rudenko A.A. Photo-piezo effect in high-resistance monocrystals GaAs // Advanced materials. – 2006. – № 6. – P. 67-71.
  • Mitrokhin V. I., Nikolaev O.V., Rembeza S.I., Kuzevanov A.L. Photo-sensitive filter based on surface acoustic waves. Patent № 7393456 H01 H 7/00. Published 31.07.2008.
Date of last change of the project  25.12.2008
Family Name and first name of a contact person  Mitrokhin Victor I.
Position in Organization  professor
Title  DSc, professor
Department/Unit, Chair  Chair of Semiconductor Electronics and Nanoelectronics
Address  RU, Voronezh region, 394026 Voronezh VSTU, 14, Moscow av.
WWW address (URL)   http://portal.vorstu.ru
http://www.vorstu.ac.ru/kafedrry/ftt/kaf/pp
E-mail address  
Telephone  +7-4732-437695
Telefax  +7-4732-463277
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
Materials
Heterogenous functional structures with universal application
The brief description of the project  Project is guided to development and production of heterogeneous functional nanostructures of different purposes with nanoscale granules and layer thickness. During the RFFI projects realization (NN 02-02-1602, 05-02-17012 and 06-02-81035) we had developed the method for preparation of nanocomposites in wide range of metallic phase concentration. Ion-beam sputtering technology (with two (three) simple or one compound target) had been used for sample preparation. In present project the realization of the possibilities of this method is planning. We suppose to use targets based on ferroelectric with giant magnetostriction, dielectric targets (ZrO2, MgO2), ferromagnetics and semiconductor structures (Si, InO, etc.).
Expected results  During the project realization development of new functional nanostructures with high magnetoelectric effect, giant magnetostriction values, high-sensitive to magnetic field thermoelectric power, and gas-sensor layers with high thermal stability are planned.
Keywords  synthesis multilayer structures nanocomposites magnetoelectric and magnetoresistive effects thermoelectric power gas sensor
Published works  
Date of last change of the project  11.06.2007
Family Name and first name of a contact person  Kalinin Yuriy E.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Solid State Physics
Address  RU, Voronezh region, 394026 Voronezh VSTU, 14, Moskovski pr.
WWW address (URL)   http://www.vorstu.ac.ru/
E-mail address  
Telephone  +7-4732-466647
Telefax  +7-4732-463247
The countries of partners under the project  Germany, Italy, France
Types of the project
  • Collaborative project (CP)
 
Call Identifier: FP7-NMP-2008-SMALL-2 (NMP-2008-2.1-2), FP7-NMP-2008-LARGE-2 (NMP-2008-2.4-1), FP7-NMP-2008-SME-2 (NMP-2008-4.0-9),
Area: Digital Smart Gas Sensors and Systems
The brief description of the project  Project is devoted to the creation of next-generation autonomic portable system for quality control and ecological monitoring of environment air by detection of toxic and explosive gases.
The main element of this system is a miniature, economic, cheap, rapid active, high sensitive gas sensor produced according to the microelectronic technology.
Sensor is a crystal of oxidized silicon (1x1 mm2) with integrated thin film structure of heater, thermometer and gas sensitive layer.
The main element of this sensor is gas sensitive layer produced by thin film technology of reactive magnetron sputtering.
As sensitive layer we use nanocomposites on the base of SnO2 with additives up to (10-15) at. % of other oxides ( SiO2, MnO, Y2O3 etc).
Special technology and treatment of the films allow to produce samples with grain size up to (5-10) nm with high sensitivity and selectivity to different gases.
Portable system for gas sensor signal indication will be produced with the help of analog-digital transduction and programmable microcontroller provided high reliability and noise stability of the useful signal.
All system can be produced as a single integral circuit (IC).
Accumulator power source, self calibration and testing of sensor units and programmable controller provide high autonomic work of the whole system.
Expected results  
  1. Synthesis and investigation of electrical-physical and gas sensitive properties of different film nanocomposites on the base of SnO2 and other oxides (Sn-Si-O, Sn-Mn-O etc) for selection of sensor material detected various gases.
  2. Elaboration of construction, fabrication technology and production of experimental microelectronic gas sensors, and investigation of their main parameters.
  3. Elaboration of construction, electronic scheme of experimental programmable indicators for toxic and explosive gas sensor signals, and investigation of their parameters.
Keywords  Electronics Microelectronics Nanotechnology Nanocomposites Gas sensors Digital indication Information systems
Published works  
  • Rembeza E.S., Richard O., Van Landuyt J. “Influence of laser and isothermal treatments on the microstructural properties of SnO2 films” - Materials Research Bulletin. - 1999. - V.34. – N 10/11. - P. 1527-1533.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsiakova O.I. “Electrical resistivity and gas response mechanism of nanocrystalline SnO2 films in a wide temperature range” - Physica Status Solidi (a).- 2000. - V.179. - P. 147-152.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsiakova O.I. “Microstructure and physical properties of thin SnO2 films” – Semiconductors. - 2000. - V.35, N 7. - P. 762-765.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Gorlova G.V. "Semiconductor metal oxide gas sensor” Patent of Russian Federation N 2206082 of 10.06.2003.
  • Rembeza S.I., Rembeza E.S., Svistova T.V. “Electrophysical properties of gas sensitive films SnO2 doped with palladium” - Sensors & Transducers Journal. – 2004. - V.40, N 2. – P. 145-151.
  • Rembeza S.I., Buslov V.A., Rembeza E.S., Vikin O.G., Vikin G.A. “Solid integral gas sensor” - Patent of Russian Federation N 2257567 of 19.05.2005
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsyakova O.I. “Physical properties of SnO2 films subjected to incoherent pulsed radiation” – Semiconductors. - 2006. - V.40, № 1. – С.57-60.
  • Rembeza E.S., Rembeza S.I., Sinelnikov B.M., Svistova T.V., Domashevskaya E.P. “Thin film nanocomposites for gas sensors” - Journal of the Rare Metal Materials and Engineering. -2006. - V.35, suppl. 3. - P. 33-35.
  • Rembeza E.S., Rembeza S.I., Grechkina M.V., Domashevskaya E.P. “Preparation and properties of thin film nanocomposites Sn-Si-O, Sn-Mn-O, Sn-Y-O, Sn-Zr-O” - China Nano2007. Proc. Intern.Conf. on Nanosience and Technology, Beijing (China). - June 2007. - P.243.
  • Rembeza E.S., Rembeza S.I. “Nanocomposites Sn-Si-O and Sn-Mn-O for gas sensors“ - Sensors & Transducers Journal. - 2007. - V.85, N11. - P. 1739-1744.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Dyrda N.N. “Method of fabrication of sensitive element for gas sensors” - Patent of Russian Federation N 2307346 of 27.09.97.
Date of last change of the project  16.07.2008
Family Name and first name of a contact person  Rembeza Stanislav I.
Position in Organization  Head of Chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Semiconductor Electronics and Nanoelectronics
Address  RU, Voronezh region, 394026 Voronezh Moskovskiy pr., 14
WWW address (URL)  
E-mail address  
Telephone  +7-4732-437695
Telefax  +7-4732-463277
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
New Production
Call Identifier: FP7-NMP-2008-SMALL-2 (NMP-2008-2.1-2), FP7-NMP-2008-LARGE-2 (NMP-2008-2.4-1), FP7-NMP-2008-SME-2 (NMP-2008-4.0-9),
Area: Digital Smart Gas Sensors and Systems
The brief description of the project  Project is devoted to the creation of next-generation autonomic portable system for quality control and ecological monitoring of environment air by detection of toxic and explosive gases.
The main element of this system is a miniature, economic, cheap, rapid active, high sensitive gas sensor produced according to the microelectronic technology.
Sensor is a crystal of oxidized silicon (1x1 mm2) with integrated thin film structure of heater, thermometer and gas sensitive layer.
The main element of this sensor is gas sensitive layer produced by thin film technology of reactive magnetron sputtering.
As sensitive layer we use nanocomposites on the base of SnO2 with additives up to (10-15) at. % of other oxides ( SiO2, MnO, Y2O3 etc).
Special technology and treatment of the films allow to produce samples with grain size up to (5-10) nm with high sensitivity and selectivity to different gases.
Portable system for gas sensor signal indication will be produced with the help of analog-digital transduction and programmable microcontroller provided high reliability and noise stability of the useful signal.
All system can be produced as a single integral circuit (IC).
Accumulator power source, self calibration and testing of sensor units and programmable controller provide high autonomic work of the whole system.
Expected results  
  1. Synthesis and investigation of electrical-physical and gas sensitive properties of different film nanocomposites on the base of SnO2 and other oxides (Sn-Si-O, Sn-Mn-O etc) for selection of sensor material detected various gases.
  2. Elaboration of construction, fabrication technology and production of experimental microelectronic gas sensors, and investigation of their main parameters.
  3. Elaboration of construction, electronic scheme of experimental programmable indicators for toxic and explosive gas sensor signals, and investigation of their parameters.
Keywords  Electronics Microelectronics Nanotechnology Nanocomposites Gas sensors Digital indication Information systems
Published works  
  • Rembeza E.S., Richard O., Van Landuyt J. “Influence of laser and isothermal treatments on the microstructural properties of SnO2 films” - Materials Research Bulletin. - 1999. - V.34. – N 10/11. - P. 1527-1533.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsiakova O.I. “Electrical resistivity and gas response mechanism of nanocrystalline SnO2 films in a wide temperature range” - Physica Status Solidi (a).- 2000. - V.179. - P. 147-152.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsiakova O.I. “Microstructure and physical properties of thin SnO2 films” – Semiconductors. - 2000. - V.35, N 7. - P. 762-765.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Gorlova G.V. "Semiconductor metal oxide gas sensor” Patent of Russian Federation N 2206082 of 10.06.2003.
  • Rembeza S.I., Rembeza E.S., Svistova T.V. “Electrophysical properties of gas sensitive films SnO2 doped with palladium” - Sensors & Transducers Journal. – 2004. - V.40, N 2. – P. 145-151.
  • Rembeza S.I., Buslov V.A., Rembeza E.S., Vikin O.G., Vikin G.A. “Solid integral gas sensor” - Patent of Russian Federation N 2257567 of 19.05.2005
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Borsyakova O.I. “Physical properties of SnO2 films subjected to incoherent pulsed radiation” – Semiconductors. - 2006. - V.40, № 1. – С.57-60.
  • Rembeza E.S., Rembeza S.I., Sinelnikov B.M., Svistova T.V., Domashevskaya E.P. “Thin film nanocomposites for gas sensors” - Journal of the Rare Metal Materials and Engineering. -2006. - V.35, suppl. 3. - P. 33-35.
  • Rembeza E.S., Rembeza S.I., Grechkina M.V., Domashevskaya E.P. “Preparation and properties of thin film nanocomposites Sn-Si-O, Sn-Mn-O, Sn-Y-O, Sn-Zr-O” - China Nano2007. Proc. Intern.Conf. on Nanosience and Technology, Beijing (China). - June 2007. - P.243.
  • Rembeza E.S., Rembeza S.I. “Nanocomposites Sn-Si-O and Sn-Mn-O for gas sensors“ - Sensors & Transducers Journal. - 2007. - V.85, N11. - P. 1739-1744.
  • Rembeza S.I., Svistova T.V., Rembeza E.S., Dyrda N.N. “Method of fabrication of sensitive element for gas sensors” - Patent of Russian Federation N 2307346 of 27.09.97.
Date of last change of the project  16.07.2008
Family Name and first name of a contact person  Rembeza Stanislav I.
Position in Organization  Head of Chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Semiconductor Electronics and Nanoelectronics
Address  RU, Voronezh region, 394026 Voronezh Moskovskiy pr., 14
WWW address (URL)  
E-mail address  
Telephone  +7-4732-437695
Telefax  +7-4732-463277
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
Environment (Including Climate Change) Climate Change, Pollution, and Risks
FP7-ENV-2009-1 (ENV.2009.1.2.2.1) Transport related air pollution and health impacts
The brief description of the project  -
Expected results  -
Keywords  Synthesis of sensitive layers Electrical-physical properties Sensor"s design Sensor"s fabrication technology Sensors testing
Published works  
  1. E.S.Rembeza, S.I.Rembeza, T.V.Svistova «Electrophysical properties of gas sensitive films SnO2 doped with palladium”. - Sensors & Transducers Magazine. – V.40, N 2. – P. 145-151. – 2004.
  2. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, В.В.Милашечко «Влияние примеси платины на свойства пленок диоксида олова, используемых в датчиках газов». - Нано- и микросистемная техника. – Т.3. – С.21-24. – 2004.
  3. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, Г.В.Горлова «Электрические и оптические свойства полупроводниковых пленок на основе SnO2 и SiO2”. - Электротехника. - Т.10. - С. 10-14. - 2004.
  4. Е.С.Рембеза, С.И.Рембеза, Э.П.Домашевская, М.В.Гречкина, Б.Л.Агапов «Влияние атомного состава оксидных нанокомпозитов на основе SnO2 на их структуру». - Нано- и микросистемная техника. – Т.7. – С.25-28. – 2005.
  5. И.А.Попова, А.П.Павин, Е.С.Рембеза, Э.П.Домашевская «Фрактальный анализ разупорядоченных нано-кристаллических пленок диоксида олова». - Известия РАН. Серия Физическая. – Т.69, №8. – С. 1210 – 1213. – 2005.
  6. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, О.И.Борсякова «Физические свойства пленок SnO2, обработанных некогерентным импульсным излучением». - Физика и техника полупроводников. – Т.40, № 1. – С.57-60. – 2006.
  7. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, Н.Н.Дырда «Методы повышения газочувствительных свойств пленок SnO2 для датчиков газа». - Известия ВУЗов. Электроника. – № 1. – С. 3-8. – 2006.
  8. Е.С.Рембеза, Т.В.Свистова, С.И.Рембеза, А.С.Комарова, Н.Н.Дырда «Структура и электрофизические свойства нанокомпозита SnOx:MnOy”. - Нано- и микросистемная техника. – Т.4. – С. 27-29. – 2006.
  9. V.I.Mitrokhin, S.I.Rembeza,E.S.Rembeza, A.A.Rudenko «Inelastic relaxation in tin dioxide thin films”. - Solid State Phenomena. – V.115. – P. 275-278. – 2006.
  10. Е.С.Рембеза, Т.В.Свистова, С.И.Рембеза, А.С.Комарова, Н.Н.Дырда «Нанокомпозиты SnOx:MnOy для микроэлектронных датчиков газов». - Нано- и микросистемная техника. - Т.11. - С.23-25- - 2006.
  11. 11. E.S.Rembeza, S.I.Rembeza, B.M.Sinelnikov, T.V.Svistova, E.P.Domashevskaya “Thin film nanocomposites for gas sensors”. - Journal of the Rare Metal Materials and Engineering. – V.35, Suppl. 3. - P. 33-35. – 2006.
  12. E.S.Rembeza, S.I.Rembeza “Nanocomposites Sn-Si-O and Sn-Mn-O for gas sensors». - Sensors & Transducers Journal. – V.85, N11. – P. 1739-1744. – 2007.
  13. Е.С.Рембеза, С.И.Рембеза, Е.А.Ермолина, М.В.Гречкина «Структура и электрофизические свойства нанокомпозита Sn-Y-O». - Нано- и микросистемная техника. - Т.6. - С.19-22. - 2008.
  14. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, Г.В.Горлова «Полупроводниковый металлооксидный датчик газов». - Патент РФ № 2206082 от 27.12.01.
  15. С.И.Рембеза, В.А.Буслов, О.Г.Викин, Е.С.Рембеза, Г.А.Викин “Твердотельный интегральный датчик газов”. - Патент РФ № 2257567 от 19.05.2004 г.
  16. С.И.Рембеза, Т.В.Свистова, Е.С.Рембеза, Н.Н.Дырда “Способ изготовления чувствительного элемента датчиков газа”. - Патент РФ № 2307346, зарегистрирован 27.09.2007.
Date of last change of the project  01.11.2008
Family Name and first name of a contact person  Rembeza Stanislav I.
Position in Organization  Head of Chair
Title  DSc, professor
Department/Unit, Chair  Department of Semiconductor Electronics and Nanoelectronics
Address  RU, Voronezh region, 394026 Voronezh VSTU, 14, Moscow av.
WWW address (URL)   http://portal.vorstu.ru
http://www.vorstu.ac.ru/kafedrry/ftt/kaf/pp
E-mail address  
Telephone  +7-4732-437695
Telefax  +7-4732-463277
The countries of partners under the project  EU countries
Types of the project
  • Collaborative project (CP)
 
The basic scientific directions of the organization within the limits of thematic priorities
Participation in FP5/6 or INTRAS or others. The submitted and supported projects