Add to ORKGSilicon (Si) quantum dots (QDs) passivated with oxygen and hydrogen of size 1 nm in diameter are prepared by wet chemical route and electrochemical route respectively. The optical measurements reveal the strong absorption feature around 4.7 eV and weak absorption at 3.4 eV for oxygen passivated Si QDs. Hydrogen passivated Si QDs of the same size show absorption at 4.9 eV. Both the oxygen and hydrogen passivated Si QDs show broad luminescence around 3.9 and 3.8 eV. Films of these QDs, when coated on crystalline silicon solar cells, show an increase in the efficiency of the solar cell by 12 %. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/2788
188-191A computer simulation using empirical pseudo-potential Hamiltonian has been performed to ex...
The fundamental properties of matter in confined particles change dramatically due to quantum effect...
Both nanocrystalline and nanoporous silicon show interesting optical properties. As the system size ...
Silicon (Si) quantum dots (QDs) passivated with oxygen and hydrogen of size 1 nm in diameter are pre...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceDepending on the size, the photoluminescence (PL) of silicon quantum dots pres...
International audienceDepending on the size, the photoluminescence (PL) of silicon quantum dots pres...
For over 60 years silicon (Si) has dominated the semiconductor microelectronics industry mainly due ...
For over 60 years silicon (Si) has dominated the semiconductor microelectronics industry mainly due ...
188-191A computer simulation using empirical pseudo-potential Hamiltonian has been performed to ex...
The fundamental properties of matter in confined particles change dramatically due to quantum effect...
Both nanocrystalline and nanoporous silicon show interesting optical properties. As the system size ...
Silicon (Si) quantum dots (QDs) passivated with oxygen and hydrogen of size 1 nm in diameter are pre...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
Silicon (Si) serves as the basic material of the system-on-a-chip industry and photovoltaic pa...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceThis article presents the evolution of the photo-luminescence (PL) of silicon ...
International audienceDepending on the size, the photoluminescence (PL) of silicon quantum dots pres...
International audienceDepending on the size, the photoluminescence (PL) of silicon quantum dots pres...
For over 60 years silicon (Si) has dominated the semiconductor microelectronics industry mainly due ...
For over 60 years silicon (Si) has dominated the semiconductor microelectronics industry mainly due ...
188-191A computer simulation using empirical pseudo-potential Hamiltonian has been performed to ex...
The fundamental properties of matter in confined particles change dramatically due to quantum effect...
Both nanocrystalline and nanoporous silicon show interesting optical properties. As the system size ...