对各向同性 Co5.47N/CoN 异质结中太阳辅助电化学水氧化作用起源的见解

IF 13 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Energy & Environmental Materials Pub Date : 2024-02-23 DOI:10.1002/eem2.12724

Sirui Liu, Qiong Gao, Bo Geng, Lili Wu, Zhikun Xu, Xinzhi Ma, Shijie Liu, Boquan Li, Mingyi Zhang, Lirong Zhang, Xitian Zhang

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引用次数: 0

摘要

在水分离过程中，太阳辐照可有效促进氧进化反应（OER）的动力学，其中异质结催化剂表现出卓越的光响应特性。然而，对于光助 OER 催化的起源，尤其是在会聚太阳辐照（CSI）条件下的界面促进作用，人们仍不清楚。本文合成了新型各向同性 Co5.47N/CoN 异质结，并利用原位拉曼技术和电化学循环伏安法从物理和化学方面全面揭示了 CSI 下相应的 OER 机制。我们的研究结果提供了一种独特的机制，即除了 Co2+ 材料的普通光电效应激发外，高能紫外光还能促进 Co3+/4+ 转换过程。重要的是，CSI 下的可见光可产生光热效应，促进 Co2+ 激发和 Co3+/4+ 转换，其对 OER 的促进作用明显大于普通光电效应。因此，Co5.47N/CoN（含 28% CoN）获得了 317.9% 的 OER 增强，为构建优异的 OER 催化剂提供了途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Insights into the Origins of Solar-Assisted Electrochemical Water Oxidation in Allotropic Co5.47N/CoN Heterojunctions

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Insights into the Origins of Solar-Assisted Electrochemical Water Oxidation in Allotropic Co5.47N/CoN Heterojunctions

Solar irradiation can efficiently promote the kinetics of the oxygen evolution reaction (OER) during water splitting, where heterojunction catalysts exhibit excellent photoresponsive properties. However, insights into the origins of photoassisted OER catalysis remain unclear, especially the interfaced promotion under convergent solar irradiation (CSI). Herein, novel allotropic Co_5.47N/CoN heterojunctions were synthesized, and corresponding OER mechanisms under CSI were comprehensively uncovered from physical and chemical aspects using the in situ Raman technique and electrochemical cyclic voltammetry method. Our results provide a unique mechanism where high-energy UV light promotes the Co^3+/4+ conversion process in addition to the ordinary photoelectric effect excitation of the Co²⁺ material. Importantly, visible light under CSI can produce a photothermal effect for Co²⁺ excitation and Co^3+/4+ conversion, which promotes the OER significantly more than the usual photoelectric effect. As a result, Co_5.47N/CoN (containing 28% CoN) obtained 317.9% OER enhancement, which provides a pathway for constructing excellent OER catalysts.

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来源期刊

Energy & Environmental Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

17.60

自引率

6.00%

发文量

期刊介绍： Energy & Environmental Materials (EEM) is an international journal published by Zhengzhou University in collaboration with John Wiley & Sons, Inc. The journal aims to publish high quality research related to materials for energy harvesting, conversion, storage, and transport, as well as for creating a cleaner environment. EEM welcomes research work of significant general interest that has a high impact on society-relevant technological advances. The scope of the journal is intentionally broad, recognizing the complexity of issues and challenges related to energy and environmental materials. Therefore, interdisciplinary work across basic science and engineering disciplines is particularly encouraged. The areas covered by the journal include, but are not limited to, materials and composites for photovoltaics and photoelectrochemistry, bioprocessing, batteries, fuel cells, supercapacitors, clean air, and devices with multifunctionality. The readership of the journal includes chemical, physical, biological, materials, and environmental scientists and engineers from academia, industry, and policy-making.