论文信息 - Influence of the local absorber layer thickness on the performance of ZnO nanorod solar cells

Influence of the local absorber layer thickness on the performance of ZnO nanorod solar cells

The local absorber layer thickness (d local ) of solar cells with I extremely thin absorber was changed between 10 nm and 70 nm. As a model system, ZnO nanorod arrays (electron conductor) with fixed internal surface area coated with In 2 S 3 (absorber) and impregnated with CuSCN (transparent hole conductor) were applied. The performance of the small area solar cells depended critically on d local . The highest short circuit current density was reached for the lowest fiscal- In contrast, the highest open circuit voltage was obtained for the highest d local . A maximum energy conversion efficiency of 3.4% at AM 1.5 was achieved. Limiting factors are discussed. ZnO nanorods and current-voltage characteristics of ETA-solar cells with various local absorber thicknesses.

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