Semimetallicity and Negative Differential Resistance from Hybrid Halide Perovskite Nanowires
Muhammad Ejaz Khan, Juho Lee, Seongjae Byeon, Yong-Hoon Kim

TL;DR
This paper investigates the electronic properties of hybrid halide perovskite nanowires, revealing their semimetallic nature and potential for negative differential resistance, which could enable advanced electronic device applications.
Contribution
It introduces the first-principles study of 1D hybrid perovskite nanowires, demonstrating their stability, semimetallicity, and NDR behavior, highlighting new electronic functionalities.
Findings
PbI$_3$ frameworks are stable and semimetallic.
Nanowire junctions exhibit high current densities.
Negative differential resistance arises from quantum hybridization.
Abstract
In the rapidly progressing field of organometal halide perovskites, the dimensional reduction could open up new opportunities for device applications. Herein, taking the recently synthesized trimethylsulfonium lead triiodide (CH)SPbI perovskite as a representative example, we carry out first-principles calculations and study the nanostructuring and device application of halide perovskite nanowires. We find that the one-dimensional (1D) (CH)SPbI structure is structurally stable, and the electronic structures of higher-dimensional forms are robustly determined at the 1D level. Remarkably, due to the face-sharing [PbI] octahedral atomic structure, the organic ligand-removed 1D PbI frameworks are also found to be stable. Moreover, the PbI columns avoid the Peierls distortion and assume a semimetallic character, contradicting the conventional assumption of…
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