Protective Role of Germania on (Sn,Ge)-Mixed Halide Perovskites: Interfacial Effects and Excitonic Optical Properties from First-Principles

15 December 2025, Version 1
This content is an early or alternative research output and has not been peer-reviewed by Cambridge University Press at the time of posting.

Abstract

In this work, we assess the impact of a GeO2 overlayer on the stability and optoelectronic properties of Pb-free Cs(Sn1−xGex)I3 perovskites. First-principles calculations show that Ge incorporation significantly reduces the exciton binding energy with respect to pristine CsSnI3, indicating enhanced electron–hole separation and improved carrier-extraction potential. Guided by this trend, we investigated Cs(Sn1−xGex)I3 (x=0.25) slab models along the stable (001) orientation and analyzed different surface terminations (CsI and MI2, with M = Sn, Ge and M=Ge only). The resulting perovskite/GeO2 interfaces exhibit composition- and termination-dependent structural rearrangements and band alignments, highlighting specific configurations that better preserve the perovskite’s optoelectronic response. To ensure a realistic comparison with experiments, crystalline models were complemented with amorphous GeO2 structures. Overall, our results clarify how germania capping layers can stabilize (Sn,Ge)-based perovskites while maintaining favorable electronic properties for photovoltaic applications.

Supplementary materials

Title
Description
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Title
Electronic features of perovskites and Band-offset of the interfaces
Description
Band structures of the pure and alloyed systems and band offsets of the interfaces considered in the manuscript
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