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The purpose of this study is firstly to investigate the relation between microstructure, stress and hydrogen distribution in as deposited hydrogenated amorphous silicon (a-Si:H) layers, and secondly the investigation of the influence of illumination on hydrogen evolution and its relationship with the strain in illuminated layers. A set of a-Si:H layers produced by hot wire chemical vapour deposition, at different temperatures using pure silane, was analyzed using different characterization techniques. UV-Visible absorption spectroscopy was used to investigate the bandgap, refractive index and…mehr

Produktbeschreibung
The purpose of this study is firstly to investigate the relation between microstructure, stress and hydrogen distribution in as deposited hydrogenated amorphous silicon (a-Si:H) layers, and secondly the investigation of the influence of illumination on hydrogen evolution and its relationship with the strain in illuminated layers. A set of a-Si:H layers produced by hot wire chemical vapour deposition, at different temperatures using pure silane, was analyzed using different characterization techniques. UV-Visible absorption spectroscopy was used to investigate the bandgap, refractive index and absorption coefficient. These measurements were also used to determine the film thickness. Hydrogen in the bonded form was investigated using Fourier transform infrared spectroscopy (FTIR), while the total hydrogen was estimated with elastic recoil detection analysis (ERD). Direct diffraction patterns from synchrotron diffraction measurements, and the corresponding pair correlation function,were used to investigate the structure and the strain.
Autorenporträt
Dr. Evariste Minani is a graduate from the University of Cape Town (UCT) and now a Physics lecturer at the University of Rwanda College of Education. He has published papers in the field of materials science. The field of his current interest is the production and characterisation of advanced nanomaterials for solar power technology and education.