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FP7 Partner offer profile

Ryazan State Radio Engineering University - Design and technology development of mono- and multicrystalline silicon high-efficiency solar cell and using amorphous hydrogenated silicon variband nanolayers containing nanocrystalline phase inclusions

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Date of filling in 20.07.2009
Organization name Ryazan State Radio Engineering University
Organization adress 59/1 Gagarina St., 390005, Ryazan, RF
Department/Unit Chair of electronic engineering and technology
Contact person Karabanov Sergey, DSc, Head of Chair
Phone +7-4912-460339
Fax +7-4912-922215
E-Mail Bsn1977@mail.ru
Web-site http://www.rsreu.ru
Organization type
  • Research
  • Education
Special Programme
Theme
Nanosciences, nanotechnologies, materials and new production technologies (NMP)
Call identifier
Topic number Design and technology development of mono- and multicrystalline silicon high-efficiency solar cell and using amorphous hydrogenated silicon variband nanolayers containing nanocrystalline phase inclusions
Call Deadline
Short description of the organization (max 12 lines): Ryazan state radioengineering university( RSREU), a state institution of higher vocational education, was founded in 1951 and nowadays serves as an important specialized scientific and educational system. The university has available modern scientific and educational basis. Department branches can be found on the basis of industrial enterprises, scientific research institutes, design offices. Research and development projects are actively carried out at the university, it functions as head organisation in a number of scientific engineering research programs in Russia.
Expertise offered The project realization will include several steps:
  1. Calculation and development of optimal nanolayer configuration, nanostructure parameters and solar cell construction, providing maximal efficiency of solar energy conversion into the electrical one.
  2. Industrial method development of amorphous silicon (a-Si:H) variband nanolayer coating containing nanocrystalline phase inclusions (nc-Si).
  3. Industrial technology creation of conductive layer coating for current collection from hydrogenated amorphous silicon nanolayer structure surface, technology creation for bus bar grid formation, and also antireflective coatings.
Work 1 can be carried out by the university; works 2,3 are to be made by your company and European partners. As the result of the project implementation the construction and technology of high-efficient solar cell production having the following forecasted pricing and performance specifications, will be developed: the efficiency is about 17-18 %, lifetime - about 20 years, lower (by 10-15 %) cost of electricity. The developed technology can be used for already existing production modernization, that is to implement a stage of nanomodified nanoscale layer formation on silicon wafer surface into the existing production chain.
Scientific keywords Photovoltaic (PV) Technology of manufacturing PV-cell Numerical modeling
Publications on the topic (other references)
  • S. Karabanov and Y. Kukhmistrov STUDY OF PV MODULE METACRYLATE ENCAPSULATION.//. Proceedings of 2006 MRS Spring Meeting, 17-21 April, 2006, San Francisco, USA (CD)
  • P.P. Beskukikh, S.M. Karabanov Renewable energy in a country balance.// Full Proceedings of World Renewable Energy Congress-IХ, 19 – 25 August, 2006, Florence, Italy (CD)
  • Sergey M. Karabanov, Yuri V. Kukhmistrov, Tatiana A. Shushkanova, Clemens Paul Schulte Two Year Monitoring of a Pv Station with Methylmetacrylate Pv Module.// Proceedings of 19th European Photovoltaic Solar Energy Conference, 4-8 September, 2006, Dresden, Germany (CD)
  • Sergey M. Karabanov, Yuri V. Kukhmistrov, Grigory V. Gordienko PV Technologies and Prospects of Their Development.// Proceedings of 22nd European Photovoltaic Solar Energy Conference, 3-7 September, 2007, Milan, Italy (CD)
  • Method of fabricating terrestrial PV-module. Application for a patent № 2007124094. Sergey M. Karabanov, Yuri V. Kukhmistrov.
  • Prospects of PV Development in Russia. Sergey M. Karabanov, Yuri V. Kukhmistrov, Tatiana A. Shushkanova. Moskow, Energy policy, № 1, 2005, p. 39-44.
Description of previous and present experience in International Cooperation -
Previous participation in EU’s Framework Programme projects