Issue 10, 2022

Efficient bandgap widening in co-evaporated MAPbI3 perovskite

Abstract

Co-evaporated perovskite solar cells (PSCs) have demonstrated outstanding properties, such as great scalability, intrinsic stability, high-power conversion efficiency (PCE), and fabrication adaptability even on rough surfaces. At present, MAPbI3 is the most used co-evaporated perovskite due to the complexity of forming multi-component compositions by thermal evaporation. Even though PSCs with high PCEs have been obtained, the MAPbI3 bandgap (∼1.60 eV) is not ideal for multijunction devices. In this work, we propose a facile method to increase the bandgap of co-evaporated MAPbI3 (∼1.60 eV) through a MABr-based treatment. The best MABr-treated perovskite composition films show a bandgap of 1.66 eV (MAPb(Br0.18I0.82)3) and exhibit good spectral stability under continuous 1-sun illumination at the ambient conditions of 28 °C and 70% relative humidity. This hybrid method works efficiently for thick co-evaporated MAPbI3 films (∼750 nm), which is unusual for hybrid processes. The n-i-p PSCs built from the MAPb(Br0.18I0.82)3 films exhibit a blue-shifted external quantum efficiency and a Voc increase of ∼30 mV as compared to the pure MAPbI3 PSCs, in agreement with the bandgap widening observed in the films. This hybrid method to crete wide bandgap perovskites can be universally applied to MAPbI3 deposited on both flat and textured surfaces and shows great promise for its integration in monolithic tandems.

Graphical abstract: Efficient bandgap widening in co-evaporated MAPbI3 perovskite

Supplementary files

Article information

Article type
Paper
Submitted
22 Okt. 2021
Accepted
24 Marts 2022
First published
13 Apr. 2022
This article is Open Access
Creative Commons BY license

Sustainable Energy Fuels, 2022,6, 2428-2438

Efficient bandgap widening in co-evaporated MAPbI3 perovskite

H. A. Dewi, J. Li, E. Erdenebileg, H. Wang, M. De Bastiani, S. De Wolf, N. Mathews, S. Mhaisalkar and A. Bruno, Sustainable Energy Fuels, 2022, 6, 2428 DOI: 10.1039/D1SE01692J

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