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光电化学水氧化复合光阳极B:CoOx/BiVO4的综合实验设计OA

Comprehensive experimental design of a photoelectrochemical water oxidation composite photoanode B:CoOx/BiVO4

中文摘要英文摘要

基于科教融合理念和教师的科研成果,设计了光电化学水氧化复合光阳极 B:CoOx/BiVO4 的综合实验.采用电化学沉积和溶液浸渍实验方法,在 FTO 导电基质上制备了一种富含氧空位、水氧化性能良好的B:CoOx/BiVO4 光阳极.借助大型仪器共享平台,运用 SEM、HRTEM、XRD 以及 XPS 等表征手段分析了B:CoOx/BiVO4 光阳极的物理特性,并运用 LSV、I-t、EIS、MS 以及极化和表面电荷转移曲线研究了B:CoOx/BiVO4 光阳极的水氧化性能.此外,还研究了富含氧空位的 B:CoOx助催化剂提升光阳极水氧化性能的作用机制.该综合实验训练有助于学生掌握光阳极的基本制备和测试方法,深入理解光电化学水氧化理论,培养学生综合实验技能以及科研探索和创新意识.

[Objective]Based on the ongoing global energy crisis and sustainable development goals,synthesizing highly efficient and stable composite photoanodes to achieve the efficient conversion of solar energy into green energy,such as H2,is essential in the photoelectrochemical(PEC)field.In this study,we design a comprehensive experiment centered on a composite photoanode—B:CoOx/BiVO4—for PEC water oxidation,grounded on the concept of integrating science and education as well as cutting-edge research findings of faculty members.Implementing such an experiment for undergraduate students not only helps bridge the gap between textbook knowledge and the related frontier of scientific research but also demonstrates the practical necessity for fostering high-level,energetic students equipped with innovative and creative capabilities.[Methods]Electrochemical deposition and solution impregnation were employed to fabricate an oxygen vacancy-rich B:CoOx/BiVO4 composite photoanode on an FTO substrate.By leveraging a large-scale instrument and equipment sharing platform from the state key laboratory of organic-inorganic composites,including scanning electron microscopy,high-resolution transmission electron microscopy,X-ray diffractometry,and X-ray photoelectron spectroscopy,the morphology,crystal structure,elemental composition,and oxygen vacancy of B:CoOx/BiVO4 were characterized,and the corresponding images and data were analyzed in detail.Further,the water oxidation performance of B:CoOx/BiVO4,including photocurrent density,stability,solar energy conversion efficiency,and charge separation/transfer efficiencies,was thoroughly investigated using linear sweep voltammetry,current-time curves,Mott-Schottky plot,polarization and surface charge transfer curves,and electrochemical impedance spectroscopy.In addition,the mechanism by which the oxygen vacancy-rich B:CoOx cocatalyst promotes the water oxidation performance of BiVO4 was explored.[Results]As revealed by the aforementioned characterizations,the oxygen vacancy-rich B:CoOx cocatalyst was successfully grown on the BiVO4 photoanode surface.Microscopic characterizations and electrochemical measurements manifest that the oxygen vacancy-rich B:CoOx cocatalyst decoration promotes photo-induced charge separation,provides rich surface catalytically active sites,accelerates charge transfer,and reduces the energy barrier for the water oxidation reaction,thereby boosting BiVO4's PEC activity.The optimized B:CoOx/BiVO4 composite photoanode exhibited an excellent PEC water oxidation performance,yielding a high photocurrent density of 3.20 mA cm-2 at 1.23 VRHE,and excellent stability for 5 h.Upon intermittent illumination for 180 min,the accumulation contents of O2 and H2 over the B:CoOx/BiVO4 photoanode and Pt cathode reached 104.5 and 53.4 µmol cm-2,respectively.[Conclusions]The comprehensive experiment conducted in this study is to develop a highly active oxygen vacancy-rich B:CoOx/BiVO4 composite photoanode via electrochemical deposition and solution impregnation.It was designed as a leading-edge scientific endeavor,integrating B:CoOx/BiVO4 synthesis,structural characterizations,electrochemical properties,PEC water oxidation assays,experimental data and result analysis,and possible reasons for the performance enhancement of the as-fabricated composite photoanode.This comprehensive experimental training helps students to understand the preparation and optimization of photoanodes and the PEC water oxidation theory,thereby cultivating comprehensive experimental skills,scientific exploration,and innovation consciousness.

陶霞;马凯瑞;康自虎;赵可人;陈会敏

北京化工大学 化学工程学院,北京 100029北京化工大学 化学工程学院,北京 100029北京化工大学 化学工程学院,北京 100029北京化工大学 化学工程学院,北京 100029北京化工大学 化学工程学院,北京 100029

化学化工

综合实验科教融合光阳极水氧化反应

comprehensive experimentintegration of science and educationphotoanodewater oxidation reaction

《实验技术与管理》 2026 (3)

169-175,7

国家自然科学基金项目(22176011)有机无机复合材料全国重点实验室仪器设备创新研究项目(oic-202503001)

10.16791/j.cnki.sjg.2026.03.022

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