Towards silicon nanocrystals based solar cells: Morphological properties and conduction phenomena
Photovoltaic Specialists Conference(2010)
摘要
In this work, we present the fabrication and the structural and electrical characterization of quantum confined silicon nanodots for advanced 3rd generation photovoltaic cells. Silicon permits its bandgap control by forming quantum confined nanocrystals in SiO2 (diameter <; 10 nm) and allowing a bandgap of more than that of the bulk (1.1 eV). We examine the properties of such films of SiO2 with embedded silicon nanocrystals (nc-Si) of diameter ≈ 5 nm. Techniques like GIXRD, HRTEM, FTIR, XPS and spectroscopic ellipsometry have been used to investigate the film structure, size and distribution of the nanocrystals. Contrary to expectations from a largely dielectric material, significant conduction has been observed in our nc-Si embedded SiO2 film. This conduction, likely to be via the nanodots, is a promising result for integration into photovoltaic devices.
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关键词
fourier transform spectra,x-ray diffraction,x-ray photoelectron spectra,electrical conductivity,elemental semiconductors,ellipsometry,energy gap,infrared spectra,nanofabrication,nanostructured materials,semiconductor quantum dots,silicon,solar cells,transmission electron microscopy,3rd generation photovoltaic cells,ftir,gixrd,hrtem,si,xps,bandgap control,dielectric material,electrical characterization,embedded silicon nanocrystal,morphological property,nanocrystal distribution,photovoltaic devices,quantum confined nanocrystal,quantum confined silicon nanodots,silicon nanocrystals based solar cells,spectroscopic ellipsometry,structural characterization,x ray diffraction,quantum confinement
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