Publications on the project |
029 Photoluminescence in nanostructures composites on the base of SiO2 : C |
Authors: | Vasin A.V. et. al. | |
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Edition: | | | | 2014,
180-185,Russian |
029 Magnetic resonance and optical study of carbonized silica obtained by pyrolysis of surface compounds |
Authors: | D. Savchenko, E. Kalabukhova, A. Sitnikov, A. Vasin, S. Starik, O. Gontar, G. Rudko, A. Nazarov, V. Lysenko and V. Tertykh | |
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Edition: | Advanced Materials Research Vol. 854 | | | 2014,
99-104., |
029 Nano- and micro-scale morghological defects in oxidized a-SiC:H thin films |
Authors: | A.V. Vasin, Y.Y. Gomeniuk, A.V. Rusavsky, A.N. Nazarov, V.S. Lysenko, P.M. Lytvyn; O.G. Gontar, S.P. Starik, C. Nouveau, S. Ashok | |
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029 Excitation effects and luminescence stability in porous SiO2:C layers |
Authors: | Andriy Vasin, Andriy Rusavsky, Alexei Nazarov, Vladimir Lysenko, Galyna Rudko, Yurii Piryatinski, Ivan Blonsky, Jarno Salonen, Ermei Makila, Sergii Starik | |
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029 Influence of oxidation temperature on photoluminescence and electrical properties of amorphous thin film SiC:H:O+Tb |
Authors: | S.O. Gordienko, A.N. Nazarov, A.V. Rusavsky, A.V. Vasin, Yu.V. Gomeniuk, V.S. Lysenko, V.V. Strelchuk, A.S. Nikolaenko, S. Ashok | |
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029 Attribution of white-light emitting centers with carbonized surface in nano-structured SiO2:C layers |
Authors: | Vasin A.V., Muto Sh., Ishikawa Yu., Salonen J., Nazarov A.N., Lysenko V.S., Okholin P. | |
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The events in the framework of the project |
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029 2. Technology Semiconductor Nanostructures Purpose:Development of new technologies for light-emitting composite materials on the base of silicon-oxygen-carbon alloys. The goal of the stage – investigation of correlations of photoluminescence efficiency, nanostructure and paramagnetic defects in porous SiO2:C layers and -Si:O:C:H thin films Expected results:Issue of new types of products: methods, theories Stage 1:Investigation of interaction of prous silicon with acetylene.
Development of rare earth metals doped carbon-rich a-SiC:H thin films by magnetron sputtering. Stage 2:Investigation of carbonization conditions of porous silicon on efficiency of white photoluminescence. Study of oxidation mechanisms in carbon-rich a-SiC:H thin films. Stage 3:Investigation of correlation of photoluminescent properties, nanostructure and paramagnetic properties in SiO2:C and a-Si:O:C:H layers. Stage 4:Investigation of the effects of thermal treatment and formation of SiO2:C nanopowders with carbon nanostructures. Stage 5:Comparative analysis of functional properties of developed materials
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