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认证转换效率突破14%的异质二维/三维锡卤化物钙钛矿太阳能电池

Heterogeneous 2D/3D Tin-Halides Perovskite Solar Cells with Certified Conversion Efficiency Breaking 14.

作者信息

Yu Bin-Bin, Chen Zhenhua, Zhu Yudong, Wang Yiyu, Han Bing, Chen Guocong, Zhang Xusheng, Du Zheng, He Zhubing

机构信息

Department of Materials Science and Engineering, Shenzhen Key Laboratory of Full Spectral Solar Electricity Generation (FSSEG), Southern University of Science and Technology, Shenzhen, 518055, China.

Academy for Advanced Interdisciplinary Studies, Southern University of Science and Technology, Shenzhen, 518055, China.

出版信息

Adv Mater. 2021 Sep;33(36):e2102055. doi: 10.1002/adma.202102055. Epub 2021 Jul 23.

DOI:10.1002/adma.202102055
PMID:34296476
Abstract

As the most promising lead-free one, tin-halides based perovskite solar cells still suffer from the severe bulk-defect due to the easy oxidation of tin from divalent to tetravalent. Here, a general and effective strategy is delivered to modulate the microstructure of 2D/3D heterogeneous tin-perovskite absorber films by substituting FAI with FPEABr in FASnI . The introduction of 2D phase can induce highly oriented growth of 3D FASnI and it is revealed in the optimal 2D/3D film that 2D phase embraces 3D grains and locates at the surfaces and grain boundaries. The FPEA based 2D tin-perovskite capping layer can offer a reducing atmosphere for vulnerable 3D FASnI grains. The unique microstructure effectively suppresses the well-known oxidation from Sn to Sn , as well as decreasing defect density, which leads to a remarkable enhanced device performance from 9.38% to 14.81% in conversion efficiency. The certified conversion efficiency of 14.03% announces a new record and moves a remarkable step from the last one (12.4%). Besides of this breakthrough, this work definitely paves a new way to fabricate high-quality tin-perovskite absorber film by constructing effective 2D/3D microstructures.

摘要

作为最有前景的无铅材料之一,基于锡卤化物的钙钛矿太阳能电池由于锡容易从二价氧化为四价,仍然存在严重的体缺陷。在此,通过在FASnI3中用FPEABr替代FAI,提出了一种通用且有效的策略来调控二维/三维异质锡钙钛矿吸收层薄膜的微观结构。二维相的引入可以诱导三维FASnI3高度取向生长,并且在最佳的二维/三维薄膜中发现,二维相包裹着三维晶粒并位于表面和晶界处。基于FPEA的二维锡钙钛矿覆盖层可以为易受影响的三维FASnI3晶粒提供还原气氛。这种独特的微观结构有效地抑制了从Sn到Sn的氧化,同时降低了缺陷密度,这使得器件性能在转换效率方面从9.38%显著提高到14.81%。14.03%的认证转换效率创造了新纪录,比上一个纪录(12.4%)有了显著提升。除了这一突破之外,这项工作无疑为通过构建有效的二维/三维微观结构来制备高质量的锡钙钛矿吸收层薄膜铺平了一条新道路。

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