Synergistic Crystallization Modulation and Defects Passivation in Kesterite via Anion‐Coordinate Precursor Engineering for Efficient Solar Cells

Lijing Wang; Liangli Chu; Zhengji Zhou; Wenhui Zhou; Dongxing Kou; Yuena Meng; Yafang Qi; Shengjie Yuan; Litao Han; Gang Yang; Zhuhua Zhang; Zhi Zheng; Sixin Wu

doi:10.1002/advs.202405016

Advanced Science (Sep 2024)

Synergistic Crystallization Modulation and Defects Passivation in Kesterite via Anion‐Coordinate Precursor Engineering for Efficient Solar Cells

Lijing Wang,
Liangli Chu,
Zhengji Zhou,
Wenhui Zhou,
Dongxing Kou,
Yuena Meng,
Yafang Qi,
Shengjie Yuan,
Litao Han,
Gang Yang,
Zhuhua Zhang,
Zhi Zheng,
Sixin Wu

Affiliations

Lijing Wang: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Liangli Chu: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Zhengji Zhou: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Wenhui Zhou: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Dongxing Kou: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Yuena Meng: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Yafang Qi: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Shengjie Yuan: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Litao Han: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China
Gang Yang: College of Physics and Electronic Engineering Nanyang Normal University Nanyang 473061 China
Zhuhua Zhang: State Key Laboratory of Mechanics and Control for Aerospace Structures Key Laboratory for Intelligent Nano Materials and Devices of Ministry of Education Institute for Frontier Science Nanjing University of Aeronautics and Astronautics Nanjing 210016 China
Zhi Zheng: Inst Surface Micro & Nano Mat Coll Adv Mat & Energy Key Lab Micronano Energy Storage & Convers Mat He Xuchang University Xuchang Henan 461000 China
Sixin Wu: Key Lab for Special Functional Materials Ministry of Education National and Local Joint Engineering Research Center for High‐Efficiency Display and Lighting Technology and School of Materials Henan University Kaifeng 475004 China

DOI: https://doi.org/10.1002/advs.202405016
Journal volume & issue: Vol. 11, no. 35
pp. n/a – n/a

Abstract

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Abstract It has been validated that enhancing crystallinity and passivating the deep‐level defect are critical for improving the device performance of kesterite Cu2ZnSn(S,Se)4 (CZTSSe) solar cells. Coordination chemistry interactions within the Cu‐Zn‐Sn‐S precursor solution play a crucial role in the management of structural defects and the crystallization kinetics of CZTSSe thin films. Therefore, regulating the coordination environment of anion and cation in the precursor solution to control the formation process of precursor films is a major challenge at present. Herein, a synergetic crystallization modulation and defect passivation method is developed using P2S5 as an additive in the CZTS precursor solution to optimize the coordination structure and improve the crystallization process. The alignment of theoretical assessments with experimental observations confirms the ability of the P2S5 molecule to coordinate with the metal cation sites of CZTS precursor films, especially more liable to the Zn2+, effectively passivating the Zn‐related defects, thereby significantly reducing the defect density in CZTSSe absorbers. As a result, the device with a power conversion efficiency of 14.36% has been achieved. This work provides an unprecedented strategy for fabricating high‐quality thin films by anion‐coordinate regulation and a novel route for realizing efficient CZTSSe solar cells.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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