Issue 21, 2022

Guanidium-assisted crystallization engineering for highly efficient CsPbI3 solar cells

Abstract

Iodine vacancies and uncoordinated iodide ions of CsPbI3 films are mainly responsible for nonradiative recombination. Here, we report a composition-engineering passivation method that through guanidium (GA+) and I forms strong hydrogen bonds to passivate iodine vacancies and reduce defects. Both experimental and theoretical results confirmed strong chemical interactions between GA+ and uncoordinated I in the GAxCs1−xPbI3 bulk or at the grain boundary. Moreover, GA+ doping could slow down the crystallization speed of perovskite films during the deposition process. As a result, we observed GA+ modified films with much lower defect density, larger grain size, and better carrier extraction and transportation. Upon GA+ passivation, the power conversion efficiency (PCE) is boosted from 18.01% to 19.05%, with open-circuit voltage (VOC) enhancement from 1.08 V to 1.14 V.

Graphical abstract: Guanidium-assisted crystallization engineering for highly efficient CsPbI3 solar cells

Supplementary files

Article information

Article type
Paper
Submitted
12 Mar 2022
Accepted
25 Apr 2022
First published
25 Apr 2022

J. Mater. Chem. C, 2022,10, 8234-8240

Guanidium-assisted crystallization engineering for highly efficient CsPbI3 solar cells

S. Wang, Y. Xu, Q. Wang, X. Zhou, Z. Li, M. Wang, Y. Lei, H. Zhang, H. Wang and Z. Jin, J. Mater. Chem. C, 2022, 10, 8234 DOI: 10.1039/D2TC01008A

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