Dependence of open circuit voltage in a-Si:H and μc-Si:H solar cells on defect density in absorber layer varied by 2 MeV electron bombardment

Abstract: Theoretically predicted values of the open circuit voltage (V OC ) for a-Si:H or c-Si:H based solar cells are substantially higher than the values achieved in of state-of-the-art devices. Fundamentally, open circuit voltage is determined by generation-recombination kinetics, where recombination is often controlled by the defect density in the absorber layer of a solar cell. The latter aspect is the focus of the paper. The relation between the V OC and the bulk recombination in the absorber layer is addressed i… Show more

“…However, it improves to a certain extent with increasing i‐layer thickness for solar cells deposited on HF etched ZnO and LPCVD ZnO. Reduction of V oc can have different reasons such as increase of i‐layer defect density or formation of shunts Refs. due to nano‐cracks formed during the deposition on top of a front texture with very steep features.…”

Impact of transparent conductive oxide front side texture on the open‐circuit voltage of a‐Si:H solar cells

“…However, it improves to a certain extent with increasing i‐layer thickness for solar cells deposited on HF etched ZnO and LPCVD ZnO. Reduction of V oc can have different reasons such as increase of i‐layer defect density or formation of shunts Refs. due to nano‐cracks formed during the deposition on top of a front texture with very steep features.…”

Impact of transparent conductive oxide front side texture on the open‐circuit voltage of a‐Si:H solar cells

Illumination intensity and spectrum-dependent performance of thin-film silicon single and multijunction solar cells