Search on stable binary and ternary compounds of two-dimensional transition metal halides

IF 4.5 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

2D Materials Pub Date : 2024-02-06 DOI:10.1088/2053-1583/ad2692

D. Hvazdouski, Мaryia Baranava, Elena A. Korznikova, A. Kistanov, Viktor R. Stempitsky

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引用次数: 0

Abstract

Ab initio driven density functional theory (DFT)-based high throughput simulations have been conducted to search for stable two-dimensional (2D) structures based on transition metal halides. Binary MeX2 and MeXY (Me – transition element, X and Y – Cr, Br, I, where X ≠ Y) 2D structures in two structural polymorphic modifications, which are 1T- phase and 1H-phase, have been studied. The main structural stability criteria, such as heat formation energy, elasticity constants, and phonon spectra and the following ab initio molecular dynamics (AIMD) simulations have been used to determine the stability of studied compounds. It has been shown that 35 MeX2 and 32 MeXY 2D structures comply with given stability criteria. Photocatalytic properties of these stable 2D MeX2 and 2D MeXY have been investigated. Based on the calculated band gap size Eg, work function Ф and electron affinity χ, it has been found that among all stable compounds 13 MeX2 and 16 MeXY 2D structures are promising photocatalysts for water splitting. However, only 7 compounds have solar-to-hydrogen (STH) efficiency overcome the 10% threshold, which is a critical parameter for solar hydrogen generation to be an economically viable resource. Among MeX2 2D structures 1T-CdI2 and 1H-VBr2 possess a STH efficiency of 11.58% and 17.23%. In the case of 2D MeXY, STH efficiencies are 22.79% (1T-ZnClI), 15.20% (1T-CdClI), 22.13% (1T-ZnBrI), 12.11% (1T-CdBrI) and 19.76% (1H-VClBr). Moreover, as a result of this work, a comprehensive publicly available database, containing detailed calculation parameters and fundamental properties of the discovered 2D transition metal halides, has been created.

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寻找二维过渡金属卤化物的稳定二元和三元化合物

为了寻找基于过渡金属卤化物的稳定二维（2D）结构，我们进行了基于原子序数驱动密度泛函理论（DFT）的高通量模拟。研究了二元 MeX2 和 MeXY（Me - 过渡元素，X 和 Y - Cr、Br、I，其中 X ≠ Y）二维结构的两种结构多态性修饰，即 1T 相和 1H 相。主要的结构稳定性标准，如热形成能、弹性常数和声子光谱，以及随后的原子分子动力学（AIMD）模拟，都被用来确定所研究化合物的稳定性。结果表明，35 MeX2 和 32 MeXY 二维结构符合给定的稳定性标准。对这些稳定的二维 MeX2 和二维 MeXY 的光催化特性进行了研究。根据计算得出的带隙大小 Eg、功函数 Ф 和电子亲和力 χ，发现在所有稳定的化合物中，有 13 种 MeX2 和 16 种 MeXY 二维结构是很有前途的水分离光催化剂。然而，只有 7 种化合物的太阳能制氢（STH）效率超过了 10%，而这正是太阳能制氢成为经济可行资源的关键参数。在二维 MeX2 结构中，1T-CdI2 和 1H-VBr2 的太阳能制氢效率分别为 11.58% 和 17.23%。二维 MeXY 的 STH 效率分别为 22.79%（1T-ZnClI）、15.20%（1T-CdClI）、22.13%（1T-ZnBrI）、12.11%（1T-CdBrI）和 19.76%（1H-VClBr）。此外，这项工作还创建了一个全面的公开数据库，其中包含已发现的二维过渡金属卤化物的详细计算参数和基本性质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2D Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

10.70

自引率

5.50%

发文量

138

审稿时长

1.5 months

期刊介绍： 2D Materials is a multidisciplinary, electronic-only journal devoted to publishing fundamental and applied research of the highest quality and impact covering all aspects of graphene and related two-dimensional materials.