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Improved Efficiency of a Large-Area Cu(In,Ga)Se2 Solar Cell by a Nontoxic Hydrogen-Assisted Solid Se Vapor Selenization Process

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journal contribution
posted on 09.04.2014, 00:00 by Tsung-Ta Wu, Fan Hu, Jyun-Hong Huang, Chia-ho Chang, Chih-chung Lai, Yu-Ting Yen, Hou-Ying Huang, Hwen-Fen Hong, Zhiming M. Wang, Chang-Hong Shen, Jia-Min Shieh, Yu-Lun Chueh
A nontoxic hydrogen-assisted solid Se vapor selenization process (HASVS) technique to achieve a large-area (40 × 30 cm2) Cu­(In,Ga)­Se2 (CIGS) solar panel with enhanced efficiencies from 7.1 to 10.8% (12.0% for active area) was demonstrated. The remarkable improvement of efficiency and fill factor comes from improved open circuit voltage (Voc) and reduced dark current due to (1) decreased interface recombination raised from the formation of a widened buried homojunction with n-type CdCu participation and (2) enhanced separation of electron and hole carriers resulting from the accumulation of Na atoms on the surface of the CIGS film. The effects of microstructural, compositional, and electrical characteristics with hydrogen-assisted Se vapor selenization, including interdiffusion of atoms and formation of buried homojunction, were examined in detail. This methodology can be also applied to CIS (CuInSe2) thin film solar cells with enhanced efficiencies from 5.3% to 8.5% (9.4% for active area) and provides a facile approach to improve quality of CIGS and stimulate the nontoxic progress in the large scale CIGS PV industry.

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