Large-Scale Micro- and Nanopatterns of Cu(In,Ga)Se2 Thin Film Solar Cells by Mold-Assisted Chemical-Etching Process

A reactive mold-assisted chemical etching (MACE) process through an easy-to-make agarose stamp soaked in bromine methanol etchant to rapidly imprint larger area micro- and nanoarrays on CIGS substrates was demonstrated. Interestingly, by using the agarose stamp during the MACE process with and witho...

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Veröffentlicht in:ACS nano 2015-04, Vol.9 (4), p.3907
Hauptverfasser: Wang, Yi-Chung, Cheng, Hsiang-Ying, Yen, Yu-Ting, Wu, Tsung-Ta, Hsu, Cheng-Hung, Tsai, Hung-Wei, Shen, Chang-Hong, Shieh, Jia-Min, Chueh, Yu-Lun
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Sprache:eng
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Zusammenfassung:A reactive mold-assisted chemical etching (MACE) process through an easy-to-make agarose stamp soaked in bromine methanol etchant to rapidly imprint larger area micro- and nanoarrays on CIGS substrates was demonstrated. Interestingly, by using the agarose stamp during the MACE process with and without additive containing oil and triton, CIGS microdome and microhole arrays can be formed on the CIGS substrate. Detailed formation mechanisms of microstructures and the chemical composition variation after the etching process were investigated. In addition, various microand nanostructures were also demonstrated by this universal approach. The microstructure arrays integrated into standard CIGS solar cells with thinner thickness can still achieve an efficiency of 11.22%, yielding an enhanced efficiency of ∼18% compared with that of their planar counterpart due to an excellent absorption behavior confirmed by the simulation results, which opens up a promising way for the realization of high-efficiency micro- or nanostructured thin-film solar cells. Finally, the complete dissolution of agarose stamp into hot water demonstrates an environmentally friendly method by the mold-assisted chemical etching process through an easy-to-make agarose stamp.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.5b00701