Topics
Transmission electron microscopyTopical concept
eVOrganisation
A simple complementary metal-oxide-semiconductor compatible process for the preparation of very thin (1-5 nm thick) poly-Si layers embedded in SiO2 is presented. The process consists of repeated cycles of poly-Si deposition, oxidation, and wet etching steps. Periodic structures with up to three Si/SiO2 layers were grown using this process. Transmission electron microscopy analyses show that the layered structure can be conserved down to a Si layer thickness of 2 nm. For thinner layers the resulting structure is more granular like. Samples with a Si-layer thickness lower than 3 nm show room temperature photoluminescence at about 1.55 eV that shifts to higher energies when the thickness is further reduced. The maximum shift obtained with resp...
We report the observation of visible and stable room temperature photoluminescence (PL) from thin co...
Two multilayer (ML) structures, composed of five layers of silicon-rich oxide (SRO) with different S...
Bandgap control of silicon based material provides a promising way towards 3rd generation photovolta...
Six-period superlattices of Si/SiO2 have been grown at room temperature using molecular beam epitaxy...
We report photoluminescence and electroluminescence at room temperature in diodes based on Si/SiO2 m...
We have prepared thin c-Si layers surrounded by thermal oxide from SIMOX substrates and from crystal...
Nano-crystalline Si/SiO2 multilayers were prepared by alternately changing the ultra-thin amorphous ...
Silicon nanocrystals in SiO2 matrix are fabricated by plasma enhanced chemical vapor deposition foll...
The deposition rate and refractive index for a-Si(amorphous silicon) and SiO2 grown by PECVD were st...
AbstractMultilayer structures composed of layers of silicon rich oxide (SRO) with high and low Si co...
Silicon light emitting devices, compatible with conventional CMOS process, have been fabricated and ...
Herein we demonstrate a simplified, ‘poor-man's’ form of the Atomic Layer Deposition (ALD) technique...
Silicon is a widely available material with very good electrical, thermal and mechanical properties ...
Superlattices of Si/SiO2 have been grown at room temperature with atomic layer precision using state...
Phosphorous-doped and boron-doped amorphous Si thin films as well as amorphous SiO2/Si/SiO2 sandwich...
We report the observation of visible and stable room temperature photoluminescence (PL) from thin co...
Two multilayer (ML) structures, composed of five layers of silicon-rich oxide (SRO) with different S...
Bandgap control of silicon based material provides a promising way towards 3rd generation photovolta...
Six-period superlattices of Si/SiO2 have been grown at room temperature using molecular beam epitaxy...
We report photoluminescence and electroluminescence at room temperature in diodes based on Si/SiO2 m...
We have prepared thin c-Si layers surrounded by thermal oxide from SIMOX substrates and from crystal...
Nano-crystalline Si/SiO2 multilayers were prepared by alternately changing the ultra-thin amorphous ...
Silicon nanocrystals in SiO2 matrix are fabricated by plasma enhanced chemical vapor deposition foll...
The deposition rate and refractive index for a-Si(amorphous silicon) and SiO2 grown by PECVD were st...
AbstractMultilayer structures composed of layers of silicon rich oxide (SRO) with high and low Si co...
Silicon light emitting devices, compatible with conventional CMOS process, have been fabricated and ...
Herein we demonstrate a simplified, ‘poor-man's’ form of the Atomic Layer Deposition (ALD) technique...
Silicon is a widely available material with very good electrical, thermal and mechanical properties ...
Superlattices of Si/SiO2 have been grown at room temperature with atomic layer precision using state...
Phosphorous-doped and boron-doped amorphous Si thin films as well as amorphous SiO2/Si/SiO2 sandwich...
We report the observation of visible and stable room temperature photoluminescence (PL) from thin co...
Two multilayer (ML) structures, composed of five layers of silicon-rich oxide (SRO) with different S...
Bandgap control of silicon based material provides a promising way towards 3rd generation photovolta...
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