Issue 25, 2024

Unveiled effects of the methylammonium chloride additive on formamidinium lead halide: expediting carrier injection from the photoabsorber to carrier transport layers through spontaneously modulated heterointerfaces in perovskite solar cells

Abstract

Perovskite solar cells (PSCs) based on a narrow-bandgap formamidinium lead halide (FAPbI3) photoabsorber have garnered substantial attention owing to their high photovoltaic (PV) performances. Extensive studies have established that the introduction of methylammonium chloride (MACl) significantly improves the quality of the FAPbI3 bulk, and hence, this method has been commonly employed. Upon heating the photoabsorber's precursor film, the incorporated MACl facilitates the crystalline growth of FAPbI3, simultaneously volatilizing and dissipating from the perovskite layer. However, not only the photoabsorber's bulk quality but also heterointerfaces between the photoabsorber and carrier transport materials importantly contribute to the PV performances. Paradoxically, the MACl effects on FAPbI3 heterointerfaces have been sparingly explored and consequently remain elusive. Herein, the effects of MACl on these heterointerfaces are unveiled by time-resolved photoluminescence spectroscopy and time-resolved microwave conductivity. The MACl additive accelerates carrier injection from FAPbI3 to the carrier transport materials presumably owing to the occurrence of spontaneous modulation of the heterointerfaces. In particular, at the heterointerface between FAPbI3 and the titanium oxide (TiO2) electron transport layer, an emissive interlayer, that is, a chloride-containing wide-bandgap FA1−xMAxPbI3−yCly interlayer is formed spontaneously, which most likely has multiple advantages: hole blocking and facilitation of electron injection from FAPbI3 to TiO2 without additional hole trapping, leading to the observed PV performance enhancement. Consequently, the present results provide novel insights into the effects of the widely employed MACl additive on the FAPbI3 photoabsorber, thereby propelling the further advancement of PSCs. Furthermore, this study demonstrates effective investigation of carrier dynamics with regard to the heterointerfaces, which is challenging, and will promote the development of the materials science field.

Graphical abstract: Unveiled effects of the methylammonium chloride additive on formamidinium lead halide: expediting carrier injection from the photoabsorber to carrier transport layers through spontaneously modulated heterointerfaces in perovskite solar cells

Supplementary files

Article information

Article type
Paper
Submitted
02 Mar 2024
Accepted
28 May 2024
First published
29 May 2024

J. Mater. Chem. C, 2024,12, 9130-9138

Unveiled effects of the methylammonium chloride additive on formamidinium lead halide: expediting carrier injection from the photoabsorber to carrier transport layers through spontaneously modulated heterointerfaces in perovskite solar cells

N. Nishimura, R. K. Behera, R. Katoh, H. Kanda, T. N. Murakami and H. Matsuzaki, J. Mater. Chem. C, 2024, 12, 9130 DOI: 10.1039/D4TC00843J

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