Photoelectrochemical OER activity by employing BiVO4 with manganese oxide co-catalysts

Kaur Manjodh; Chhetri Manjeet; Rao C. N. R.

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Photoelectrochemical OER activity by employing BiVO4 with manganese oxide co-catalysts

机译：通过使用与锰氧化物助催化剂的Bivo4进行光电化学oer活性

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The structure-activity relationship in the electrochemical OER has been studied widely, but aspects of the photoelectrochemical (PEC) O-2 evolution activity with different manganese oxides are not fully explored. In the present study different manganese oxides (MnO2, MnOx (a mixture of Mn3+ and Mn4+ ions), Mn2O3, and Mn3O4) have been electrodeposited onto the BiVO4 photoanode as co-catalysts for PEC water splitting. We find that BiVO4-MnOx shows the lowest onset potential of 0.33 V vs. RHE and the highest activity among the manganese oxides. Annealing at different temperatures results in the improvement of the OER kinetics at the interface with some detrimental effect on the activity of BiVO4. Such a study may lead to useful changes in the fabrication of semiconductor thin film photoelectrodes useful for PEC water splitting.

机译：电化学户口中的结构 - 活性关系已经广泛研究，但光电化学（PEC）O-2进化活性的各方面并未完全探索具有不同氧化锰的进化活性。在本研究中，不同锰氧化物（MNO2，MNO 2，MN3 +和MN4 +离子的混合物），MN2O3和MN3O4）被电沉积到BIVO4光电作为PEC水分解的助催化剂上。我们发现BIVO4-MNOX显示出0.33V与RHE的最低发作电位和锰氧化物中最高活性。在不同的温度下退火导致在界面中改善oer动力学对Bivo4的活性的一些不利影响。这样的研究可能导致用于PEC水分裂的半导体薄膜光电子的制造的有用变化。

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《Physical chemistry chemical physics: PCCP》 |2020年第2期|共7页
作者
Kaur Manjodh; Chhetri Manjeet; Rao C. N. R.;
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Jawaharlal Nehru Ctr Adv Sci Res Sch Adv Mat Int Ctr Mat Sci New Chem Unit Jakkur PO Bangalore 560064 Karnataka India;

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正文语种 eng
中图分类物理学;化学;
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1. Photoelectrochemical OER activity by employing BiVO4 with manganese oxide co-catalysts [J] . Kaur Manjodh, Chhetri Manjeet, Rao C. N. R. Physical chemistry chemical physics: PCCP . 2020,第2期

机译：通过使用与锰氧化物助催化剂的Bivo4进行光电化学oer活性
2. Enhancing the Photoelectrochemical Water Oxidation Reaction of BiVO4 Photoanode by Employing Carbon Spheres as Electron Reservoirs [J] . Minrui Wang, Zeyan Wang, Bo Zhang, ACS catalysis . 2020,第21期

机译：通过用碳球作为电子储层来增强Bivo4光电陶器的光电化学水氧化反应
3. Synthesis and Doping Strategies to Improve the Photoelectrochemical Water Oxidation Activity of BiVO4 Photoanodes [J] . Zeitschrift fur Physikalische Chemie: International Journal of Research in Physical Chemistry and Chemical Physics . 2020,第4期

机译：改善Bivo4光桥的光电化学水氧化活性的合成与掺杂策略
4. A Thin Film Consisting of Stacked Graphene and the Intercalated Manganese Oxide as Efficient OER Catalyst [C] . Kotaro Fujimoto, Tamie Kobayakawa, Masaharu Nakayama Meeting of the Electrochemical Society . 2017

机译：由堆叠的石墨烯和嵌入的锰氧化物组成的薄膜，如有效的oer催化剂
5. Comparison of the reactivity of various manganese oxides with trivalent aqueous chromium: Microscopic and spectroscopic observations of dissolution, chromium sorption and chromium and manganese redox interactions. [D] . Weaver, Robert Michael. 2001

机译：各种锰氧化物与三价铬水溶液反应性的比较：溶解，铬吸附以及铬和锰氧化还原相互作用的显微和光谱观察。
6. Cu2O Photocathode for Low Bias Photoelectrochemical Water Splitting Enabled by NiFe-Layered Double Hydroxide Co-Catalyst [O] . Huan Qi, Jonathan Wolfe, Denis Fichou, -1

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7. Challenges in the Application of Manganese Oxide Powders as OER Electrocatalysts: Synthesis, Characterization, Activity and Stability of Nine Different Mn x O y Compounds [O] . Justus Heese‐Gärtlein, Anna Rabe, Malte Behrens 2021

机译：氧化锰粉末作为伊尔电催化剂的挑战：九种不同Mn×O Y Y Y型化合物的合成，表征，活性和稳定性

Photoelectrochemical OER activity by employing BiVO4 with manganese oxide co-catalysts

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