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Tailoring Addition Sequence of Metal Ions in Precursor Solution Drives Highly Efficient Kesterite Solar Cells

Qing Zhou, Yali Sun, Yali Sun, Hao Li, Yuzhou Sun, Yuzhou Sun, Wei Zhao, Baolai Liang, Ying Wang, Yujiao Ma, Liang Zhao, Xiaoyun Teng, Chao Gao, Wei Yu

2024Advanced Functional Materials27 citationsDOI

Abstract

Abstract The unsatisfactory material quality of absorber is an important factor limiting the development of Cu 2 ZnSn(S,Se) 4 (CZTSSe) thin‐film solar cells, including poor crystallization, multi‐layer structure, and various defects. Here, an effective strategy to enhance the quality of kesterite absorber and improve the performance of solar cells is proposed by tailoring the additional sequence of metal ions in precursor solution. With an addition sequence S─Sn─Cu─Zn (STCZ), higher values of Cu + /Cu 2+ and Sn 4+ /Sn 2+ ratios are obtained, and the surface grain growth is modulated into an inclined growth mode. Consequently, the decomposition of CZTSSe bulk is suppressed and its final morphology presents mainly as large grains spanning across the absorber. The quality of absorber and its interface is enhanced with activating the desirable shallow acceptor and reducing recombination center defects. An encouraging efficiency of over 12% for CZTSSe solar cells with increased short‐circuit current density and fill factor is realized. This novel strategy provides insight into crystallization mechanism of kesterite photovoltaic material and has guiding significance for further improving material crystallization and absorber quality.

Topics & Concepts

KesteriteMaterials scienceCrystallizationGrain growthChemical engineeringAcceptorMetalPhotovoltaic systemLayer (electronics)Grain sizeNanotechnologyCZTSComposite materialMetallurgyBiologyEngineeringEcologyCondensed matter physicsPhysicsChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And PropertiesCopper-based nanomaterials and applications