First-principles study of GeC/Ga2SO heterostructure as a potential direct Z-scheme photocatalyst for water splitting

IF 7.1 3区 材料科学 Q1 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Materials Today Sustainability Pub Date : 2024-09-24 DOI:10.1016/j.mtsust.2024.100989
Xin Huang , Kang Xu , Jiahao Li , Wei Chen , Zhenxing Yang , Kebin Ding , Yujie Leng , Yakui Weng , Shuai Dong , Yunhui Wang , Zhihong Yang
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Abstract

The rational design of van der Waals heterostructure offers an effective avenue for improving the photocatalytic efficiency of individual two-dimensional materials, garnering extensive interest in recent years. Herein, the feasibility of GeC/Ga2SO heterostructure as a photocatalyst for overall water splitting has been explored based on the first-principles calculations. Our findings reveal that the electronic bandstructure of GeC/Ga2SO heterostructure can be engineered in staggered or straddling band alignment depending on stacking patterns. Particularly, in the GeC/Ga2SO heterostructure with staggered band alignment, an intrinsic built-in electric field is established at the interface with the direction from GeC to Ga2SO, facilitating the formation of a direct Z-scheme heterostructure. Also importantly, the band-edge positions of Z-scheme GeC/Ga2SO heterostructure cross the water redox potentials, providing adequate driving force for both the reduction and oxidation reactions of water. Gibbs free energy calculations demonstrated that the photocatalytic overall water splitting can proceed spontaneously in the neutral environment (pH = 7) under light irradiation. Moreover, GeC/Ga2SO heterostructure exhibits good thermal stability and a strong (magnitude in 105 cm−1) and broad (from visible to ultraviolet light) optical absorption. Finally, through applying the tensile strain, further enhancements in the optical absorption and carrier redox ability are achieved due to the favorable modulation in the bandgap. Therefore, all these features make GeC/Ga2SO heterostructure show great potential in the application of photocatalytic water splitting.

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将 GeC/Ga2SO 异质结构作为潜在的直接 Z 型光催化剂用于水分离的第一性原理研究
范德华异质结构的合理设计为提高单个二维材料的光催化效率提供了有效途径,近年来引起了广泛关注。本文基于第一性原理计算,探讨了 GeC/Ga2SO 异质结构作为整体水分离光催化剂的可行性。我们的研究结果表明,GeC/Ga2SO 异质结构的电子能带结构可根据堆叠模式设计成交错或跨带排列。特别是在带排列交错的 GeC/Ga2SO 异质结构中,界面上建立了从 GeC 到 Ga2SO 方向的内在电场,从而促进了直接 Z 型异质结构的形成。同样重要的是,Z 型 GeC/Ga2SO 异质结构的带边位置跨越了水的氧化还原电位,为水的还原和氧化反应提供了足够的驱动力。吉布斯自由能计算表明,在中性环境(pH = 7)中,光照照射下的光催化整体水分离可以自发进行。此外,GeC/Ga2SO 异质结构还具有良好的热稳定性和较强的(量级在 105 cm-1 内)、较宽的(从可见光到紫外光)光吸收。最后,通过施加拉伸应变,由于带隙的有利调制,光吸收和载流子氧化还原能力得到了进一步增强。因此,所有这些特点使得 GeC/Ga2SO 异质结构在光催化水分离应用中展现出巨大的潜力。
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来源期刊
CiteScore
5.80
自引率
6.40%
发文量
174
审稿时长
32 days
期刊介绍: Materials Today Sustainability is a multi-disciplinary journal covering all aspects of sustainability through materials science. With a rapidly increasing population with growing demands, materials science has emerged as a critical discipline toward protecting of the environment and ensuring the long term survival of future generations.
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