Theory and experiment on the surface-photovoltage diffusion-length measurement as applied to amorphous silicon
- 1 January 1983
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 54 (1), 222-228
- https://doi.org/10.1063/1.331745
Abstract
The collection-efficiency theory for low-mobility solar cells proposed by Reichman has been adapted to the analysis of the surface-photovoltage experiment in amorphous silicon. From measurement of the apparent diffusion length at low- and high-bias light intensity the ambipolar diffusion length and space-charge width can be obtained. In order to fit experimental observations to the theory it was necessary to assume that the positive space-charge density in the surface barrier increases with the light level. This was independently confirmed by capacitance measurements.Keywords
This publication has 15 references indexed in Scilit:
- Collection length of holes in a-Si:H by surface photovoltage using a liquid Schottky barrierApplied Physics Letters, 1982
- Diffusion length of holes in a-Si:H by the surface photovoltage methodApplied Physics Letters, 1981
- Collection efficiency of low-mobility solar cellsApplied Physics Letters, 1981
- Carrier collection efficiency of a-SiHx Schottky-barrier solar cellsApplied Physics Letters, 1981
- Photoelectromagnetic effect in amorphous siliconApplied Physics Letters, 1980
- Current transport in metal-semiconductor barriersSolid-State Electronics, 1966
- A Method for the Measurement of Short Minority Carrier Diffusion Lengths in SemiconductorsJournal of Applied Physics, 1961
- Depletion-Layer Photoeffects in SemiconductorsPhysical Review B, 1959
- Large-Signal Surface Photovoltage Studies with GermaniumPhysical Review B, 1958
- XIII. Photovoltaic and Photoconductive Theory Applied to InSbJournal of Electronics and Control, 1955