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. 2023 Feb;22(2):216-224.
doi: 10.1038/s41563-022-01448-2. Epub 2023 Jan 26.

Charge transport in mixed metal halide perovskite semiconductors

Satyaprasad P Senanayak #  1 Krishanu Dey #  2 Ravichandran Shivanna  2   3 Weiwei Li  4   5 Dibyajyoti Ghosh  6 Youcheng Zhang  2   7 Bart Roose  8 Szymon J Zelewski  2   9 Zahra Andaji-Garmaroudi  2 William Wood  2 Nikhil Tiwale  10 Judith L MacManus-Driscoll  4 Richard H Friend  2 Samuel D Stranks  11   12 Henning Sirringhaus  13
Affiliations

Charge transport in mixed metal halide perovskite semiconductors

Satyaprasad P Senanayak et al. Nat Mater. 2023 Feb.

Abstract

Investigation of the inherent field-driven charge transport behaviour of three-dimensional lead halide perovskites has largely remained challenging, owing to undesirable ionic migration effects near room temperature and dipolar disorder instabilities prevalent specifically in methylammonium-and-lead-based high-performing three-dimensional perovskite compositions. Here, we address both these challenges and demonstrate that field-effect transistors based on methylammonium-free, mixed metal (Pb/Sn) perovskite compositions do not suffer from ion migration effects as notably as their pure-Pb counterparts and reliably exhibit hysteresis-free p-type transport with a mobility reaching 5.4 cm2 V-1 s-1. The reduced ion migration is visualized through photoluminescence microscopy under bias and is manifested as an activated temperature dependence of the field-effect mobility with a low activation energy (~48 meV) consistent with the presence of the shallow defects present in these materials. An understanding of the long-range electronic charge transport in these inherently doped mixed metal halide perovskites will contribute immensely towards high-performance optoelectronic devices.

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