Issue 27, 2016

Development of semitransparent CIGS thin-film solar cells modified with a sulfurized-AgGa layer for building applications

Abstract

Different from conventional photovoltaics, building-integrated photovoltaics needs not only high performance but also a high degree of transparency. Nevertheless, the Cu(In,Ga)Se2 (CIGS) solar cell has advantages in terms of the highest conversion efficiency and stability among all thin-film-based solar cells. The semitransparent (ST) CIGS solar cell using an ultrathin CIGS absorber on a transparent conducting oxide (TCO) experiences loss in fill factor and open circuit voltage due to the poor grain morphology and CIGS/TCO interface. Thus, these issues must be addressed to realize ST CIGS solar cells. Wide-bandgap (1.5 eV) submicron CIGS-based solar cells were prepared in this study unlike conventional CIGS with a bandgap of 1.2 eV, in order to enhance see-throughness. But such cells demonstrated low conversion efficiency due to the poor grain morphology and absence of back grading. Therefore, for the sake of improving grain morphology and to create back grading, a sulfurized-AgGa (AGS) layer was deposited between CIGS and the indium tin oxide (ITO) back contact. Ag from the AGS layer diffused throughout the absorber and thus ameliorated the grain morphology. However, Ga and S in the AGS layer remained confined near the back contact, therefore resulting in the creation of back grading. Consequently, a solar cell based on 230 nm thick CIGS modified with a 45 nm thick AGS layer exhibited efficiency of 5.94% with averaged visible transmittance over 25%. This is the highest reported efficiency for a ST CIGS solar cell with over 20% visible transparency. The CIGS solar cell based on this novel approach can be a competent candidate for building-integrated semitransparent photovoltaics applications.

Graphical abstract: Development of semitransparent CIGS thin-film solar cells modified with a sulfurized-AgGa layer for building applications

Supplementary files

Article information

Article type
Paper
Submitted
04 Mar 2016
Accepted
07 Jun 2016
First published
07 Jun 2016

J. Mater. Chem. A, 2016,4, 10542-10551

Development of semitransparent CIGS thin-film solar cells modified with a sulfurized-AgGa layer for building applications

M. Saifullah, S. Ahn, J. Gwak, S. Ahn, K. Kim, J. Cho, J. H. Park, Y. J. Eo, A. Cho, J. Yoo and J. H. Yun, J. Mater. Chem. A, 2016, 4, 10542 DOI: 10.1039/C6TA01909A

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