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Simple Processing and Analysis of Flexible III–V Multijunction Solar Cells Using Low‐Temperature Transfer Technology
Author(s) -
Long Junhua,
Li Xuefei,
Sun Qiangjian,
Dai Pan,
Zhang Yi,
Xuan Jingjing,
Chen Feixue,
Song Minghui,
Honda Shinya,
Uchida Shiro,
Lu Shulong
Publication year - 2021
Publication title -
solar rrl
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.544
H-Index - 37
ISSN - 2367-198X
DOI - 10.1002/solr.202100066
Subject(s) - materials science , adhesive , optoelectronics , fabrication , coating , solar cell , reflector (photography) , reciprocity (cultural anthropology) , residual stress , composite material , optics , layer (electronics) , psychology , medicine , social psychology , light source , alternative medicine , physics , pathology
A simple method is proposed for manufacturing the flexible III–V inverted metamorphic solar cells by low‐temperature transfer technology. Benefiting from the special low‐temperature adhesive and the Cu‐plated thin films, only one‐time bonding and extremely easy debonding are needed through the whole process and a negligible effect of residual stress can be obtained, which is critical to large‐size device fabrication. The optical model of light trapping and photon recycling based on the native textured back‐surface reflector of the flexible solar cell is constructed to design the antireflection coating. The flexible 4 in solar cells with a weight‐area density of only 169 g m −2 are successfully mass‐produced. The analysis of the individual subcells using optoelectronic reciprocity relation indicates that the GaAs middle subcell should be further optimized to improve the performance. The technique can be expected to achieve mass production of flexible high‐efficiency large‐size solar cells with low cost.