Prospects for tin-containing halide perovskite photovoltaics
Precision Chemistry American Chemical Society 1:2 (2023) 69-82
Abstract:
Tin-containing metal halide perovskites have enormous potential as photovoltaics, both in narrow band gap mixed tin–lead materials for all-perovskite tandems and for lead-free perovskites. The introduction of Sn(II), however, has significant effects on the solution chemistry, crystallization, defect states, and other material properties in halide perovskites. In this perspective, we summarize the main hurdles for tin-containing perovskites and highlight successful attempts made by the community to overcome them. We discuss important research directions for the development of these materials and propose some approaches to achieve a unified understanding of Sn incorporation. We particularly focus on the discussion of charge carrier dynamics and nonradiative losses at the interfaces between perovskite and charge extraction layers in p-i-n cells. We hope these insights will aid the community to accelerate the development of high-performance, stable single-junction tin-containing perovskite solar cells and all-perovskite tandems.3D Perovskite Passivation with a Benzotriazole-Based 2D Interlayer for High-Efficiency Solar Cells
ACS Applied Energy Materials American Chemical Society (ACS) 6:7 (2023) 3933-3943
Large piezoelectric response in a Jahn-Teller distorted molecular metal halide
Nature Communications Springer Nature 14:1 (2023) 1852
Characterising halide perovskite crystallisation pathways using in situ GIWAXS
Fundacio Scito (2023)
Understanding operation and improving the performance of metal halide perovskite solar cells
Fundacio Scito (2023)