Lead-Free Semiconductors: Phase-Evolution and Superior Stability of Multinary Tin Chalcohalides

Alison N. Roth, Andrew P. Porter, Sarah Horger, Kerly Ochoa-Romero, Gonzalo Guirado, Aaron J. Rossini, Javier Vela

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3 Cites (Scopus)

Resum

Tin-based semiconductors are highly desirable materials for energy applications due to their low toxicity and biocompatibility relative to analogous lead-based semiconductors. In particular, tin-based chalcohalides possess optoelectronic properties that are ideal for photovoltaic and photocatalytic applications. In addition, they are believed to benefit from increased stability compared with halide perovskites. However, to fully realize their potential, it is first necessary to better understand and predict the synthesis and phase evolution of these complex materials. Here, we describe a versatile solution-phase method for the preparation of the multinary tin chalcohalide semiconductors SnSbSI, SnBiSI, SnBiSI, and SnSI. We demonstrate how certain thiocyanate precursors are selective toward the synthesis of chalcohalides, thus preventing the formation of binary and other lower order impurities rather than the preferred multinary compositions. Critically, we utilized 119 Sn ssNMR spectroscopy to further assess the phase purity of these materials. Further, we validate that the tin chalcohalides exhibit excellent water stability under ambient conditions, as well as remarkable resistance to heat over time compared to halide perovskites. Together, this work enables the isolation of lead-free, stable, direct band gap chalcohalide compositions that will help engineer more stable and biocompatible semiconductors and devices.
Idioma originalAnglès
Pàgines (de-a)4542-4552
Nombre de pàgines11
RevistaChemistry of Materials
Volum36
Número9
DOIs
Estat de la publicacióPublicada - 19 d’abr. 2024

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