Tailoring band structures and photocatalytic overall water splitting in a two-dimensional GaN/black phosphorus heterojunction: First-principles calculations

Journal of Applied Physics Pub Date : 2024-08-09 DOI:10.1063/5.0218663

Xiaodong Hao, Qiheng Ma, Xishuo Zhang, Jiahui Wang, Deqiang Yin, Shufang Ma, Bingshe Xu

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Abstract

This study investigates the impact of biaxial strain on monolayer black phosphorus (BP) through first-principles calculations, confirming its stability and subsequently modifying its photocatalytic performance. Under biaxial strain, BP exhibits a direct bandgap suitable for photocatalytic hydrogen production during water splitting, albeit with limitations due to its valence band maximum edge. A distinctive GaN/BP heterojunction is proposed, featuring a direct bandgap and advantageous band edge positions conducive to efficient photocatalytic overall water splitting. Under the influence of biaxial strain, the heterojunction type undergoes a transition from direct type-I to direct type-II and Z, augmenting the separation of photoexcited electrons and holes and markedly enhancing the efficiency of photocatalytic hydrogen production. Furthermore, the heterojunction exhibits commendable capabilities in absorbing visible light. This research provides a promising avenue to surmount the constraints associated with monolayer BP in photocatalysis, offering valuable insights for the development of efficient photocatalytic materials.

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二维氮化镓/黑磷异质结中的定制能带结构和光催化整体水分离：第一原理计算

本研究通过第一原理计算研究了双轴应变对单层黑磷（BP）的影响，证实了其稳定性，并随之改变了其光催化性能。在双轴应变作用下，黑磷显示出直接带隙，适合在水分离过程中光催化制氢，但由于其价带最大边缘的限制。我们提出了一种独特的 GaN/BP 异质结，它具有直接带隙和有利的带边位置，有利于高效的光催化整体水分离。在双轴应变的影响下，异质结类型从直接 I 型过渡到直接 II 型和 Z 型，增强了光激发电子和空穴的分离，显著提高了光催化制氢的效率。此外，该异质结在吸收可见光方面也表现出令人称道的能力。这项研究为克服光催化过程中与单层 BP 相关的限制提供了一条前景广阔的途径，为开发高效光催化材料提供了宝贵的见解。

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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Journal of Applied Physics

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