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Structural design of BaSi2 solar cells with a-SiC electron-selective transport layers

Japanese Journal of Applied Physics (2023) 62
DOI: 10.35848/1347-4065/acab09
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Abstract

Sputter-deposited polycrystalline BaSi2 films capped with a 5 nm thick a-SiC layer showed high photoresponsivity. This means that the a-SiC layer functions as a capping layer to prevent surface oxidation of BaSi2. Based on the measured absorption edge, the electron affinity of the a-SiC layer, and the work function of the TiN layer, the a-SiC is considered to act as an electron transport layer (ETL) for the BaSi2 light absorber layer/a-SiC interlayer/TiN contact structure in a BaSi2 solar cell. Using a 10 nm thick p+-BaSi2 layer as a hole transport layer, we investigated the effect of the BaSi2/a-SiC layered structure on the device performance of a BaSi2-pn homojunction solar cell by a one-dimensional device simulator (AFORS-HET v2.5). The a-SiC ETL effectively separates photogenerated carriers and allows transport of electrons while blocking holes to achieve an efficiency of 22% for a 500 nm thick BaSi2 light absorber layer.

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CITATION STYLE

APA

Du, R., Aonuki, S., Hasebe, H., Kido, K., Takenaka, H., Toko, K., … Suemasu, T. (2023). Structural design of BaSi2 solar cells with a-SiC electron-selective transport layers. Japanese Journal of Applied Physics, 62. https://doi.org/10.35848/1347-4065/acab09

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