Preparation of heterometallic CoNi-MOFs-modified BiVO4: a steady photoanode for improved performance in photoelectrochemical water splitting

Zhou Shiqian; Chen Kaiyi; Huang Jingwei; Wang Lei; Zhang Mingyi; Bai Bo; Liu Hui; Wang Qizhao

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Preparation of heterometallic CoNi-MOFs-modified BiVO4: a steady photoanode for improved performance in photoelectrochemical water splitting

机译：杂动机Coni-MOFS改性BIVO4的制备：一种稳态光电极，可提高光电化学水分裂性能

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In this work, an efficient nanoporous BiVO4 composite photoelectrode with high photocurrent and low onset potential for photoelectrochemical water splitting is achieved through modification of BiVO4 with a stable heterometallic CoNi-MOF layer. Compared with pristine BiVO4 anode, the formation of CoNi-MOFs/BiVO4 increases the photocurrent density by about 260 %. In addition, the CoNi-MOFs/BiVO4 photoanode is of greater steadiness for water oxidation, without insignificant activity attenuation within 3 reaction hours at 1.23 V vs. RHE. It is postulated that bimetal-organic framework CoNi-MOFs could supply more open sites which account for the impressively enhanced PEC performance of BiVO4 photoanodes toward water splitting under illumination. The results demonstrate a new method to fabricate dual metal nanoparallelepiped-like MOF for steady hydrolysis photoanode material.

机译：在这项工作中，通过用稳定的杂象锥体层层改变Bivo4，实现了具有高光电流和光电子电化水分解的高光电流和低发病潜力的高效纳米多孔Bivo4复合光电极。与原始Bivo4阳极相比，Coni-Mofs / Bivo4的形成将光电性密度增加约260％。此外，Coni-Mofs / Bivo4 PhotoNanode具有更大的水氧化稳定性，在1.23V与Rhe的3个反应小时内没有微不足道的活性衰减。它提出了Bimetal-Organic框架Coni-Mof可以提供更多的开放位点，该网站考虑了Bivo4 PhotoNodes对水分裂的令人印象深刻的PEC性能。结果表明了一种用于制造双金属纳米机平行厚膜的新方法，用于稳定水解光透镜材料。

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《Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications 》 |2020年第2020期| 共10页
作者
Zhou Shiqian; Chen Kaiyi; Huang Jingwei; Wang Lei; Zhang Mingyi; Bai Bo; Liu Hui; Wang Qizhao;
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作者单位

Northwest Normal Univ Coll Chem &

Chem Engn Lanzhou 730070 Peoples R China;

Changan Univ Sch Environm Sci &

Engn Key Lab Subsurface Hydrol &

Ecol Effects Arid Reg Minist Educ Xian 710054 Peoples R China;

Northwest Normal Univ Coll Chem &

Chem Engn Lanzhou 730070 Peoples R China;

Northwest Normal Univ Coll Chem &

Chem Engn Lanzhou 730070 Peoples R China;

Harbin Normal Univ Sch Phys &

Elect Engn Key Lab Photon &

Elect Bandgap Mat Minist Educ Harbin 150025 Peoples R China;

Changan Univ Sch Environm Sci &

Engn Key Lab Subsurface Hydrol &

Ecol Effects Arid Reg Minist Educ Xian 710054 Peoples R China;

Cent South Univ Chinese Natl Engn ResearchCtr Control &

Treatment Sch Met &

Environm Changsha 410083 Peoples R China;

Changan Univ Sch Environm Sci &

Engn Key Lab Subsurface Hydrol &

Ecol Effects Arid Reg Minist Educ Xian 710054 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类催化 ;
关键词
CoNi-MOFs/BiVO4; Photoelectrochemical (PEC) water splitting; Stability;

机译：Coni-Mofs / Bivo4;光电化学（PEC）水分裂;稳定性;

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1. Preparation of heterometallic CoNi-MOFs-modified BiVO4: a steady photoanode for improved performance in photoelectrochemical water splitting [J] . Zhou Shiqian, Chen Kaiyi, Huang Jingwei, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2020 ,第期

机译：杂动机Coni-MOFS改性BIVO4的制备：一种稳态光电极，可提高光电化学水分裂性能
2. Synergetic catalytic behavior of AgNi-OH-Pi nanostructures on Zr:BiVO4 photoanode for improved stability and photoelectrochemical water splitting performance [J] . Shaddad Maged N., Arunachalam Prabhakarn, Alothman Asma A., Journal of Catalysis . 2019 ,第期

机译：Agni-OH-PI纳米结构对Zr的协同催化行为：Bivo4光电仪提高稳定性和光电化学水分解性能
3. Understanding the Roles of NiOx in Enhancing the Photoelectrochemical Performance of BiVO4 Photoanodes for Solar Water Splitting [J] . Zhang Mengyuan, Antony Rajini P., Chiam Sing Yang, ChemSusChem . 2019 ,第9期

机译：了解NIOX的作用在增强BIVO4光电耦合的光电化学性能下的太阳能分裂
4. Bias-free water splitting by the combination of BiVO4 photoanode with an organo-photocathode [C] . Takahiro Murakami, Keiji Nagai, Hideki Kato 日本化学会春季年会講演予稿集 . 2018

机译：通过BIVO4 PhotoNode的组合与有机光阴极的偏差水分裂
5. Studies on the electrochemical synthesis and modification of semiconductor photoanodes for improved photoelectrochemical water splitting. [D] . McDonald, Kenneth James. 2012

机译：半导体光阳极的电化学合成和修饰以改善光电化学水分解的研究。
6. Embedding laser generated nanocrystals in BiVO4 photoanode for efficient photoelectrochemical water splitting [O] . Jie Jian, Youxun Xu, Xiaokun Yang, -1

机译：将激光生成的纳米晶体嵌入BiVO4光电阳极中以实现有效的光电化学水分解
7. Cooperative Catalytic Behavior of SnO2 and NiWO4 over BiVO4 Photoanodes for Enhanced Photoelectrochemical Water Splitting Performance [O] . Maged N. Shaddad, Prabhakarn Arunachalam, Mahmoud Hezam, 2019

机译：SnO2和NIWO4在BIVO4光电池中的合作催化行为，增强光电化学水分解性能

Preparation of heterometallic CoNi-MOFs-modified BiVO4: a steady photoanode for improved performance in photoelectrochemical water splitting

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