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Journal articles on the topic 'Oxygen evolution reaction'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

Lin, Shiru, Haoxiang Xu, Yekun Wang, Xiao Cheng Zeng, and Zhongfang Chen. "Directly predicting limiting potentials from easily obtainable physical properties of graphene-supported single-atom electrocatalysts by machine learning." Journal of Materials Chemistry A 8, no. 11 (2020): 5663–70. http://dx.doi.org/10.1039/c9ta13404b.

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The oxygen reduction reaction (ORR), oxygen evolution reaction (OER), and hydrogen evolution reaction (HER) are three critical reactions for energy-related applications, such as water electrolyzers and metal–air batteries.
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2

Wu, Hengbo, Jie Wang, Wei Jin, and Zexing Wu. "Recent development of two-dimensional metal–organic framework derived electrocatalysts for hydrogen and oxygen electrocatalysis." Nanoscale 12, no. 36 (2020): 18497–522. http://dx.doi.org/10.1039/d0nr04458j.

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Developing efficient and low-cost electrocatalysts with unique nanostructures is of great significance for improved electrocatalytic reactions, including the hydrogen evolution reaction (HER), oxygen evolution reaction (OER), and oxygen reduction reaction (ORR).
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3

Chae, Sangwoo, Akihito Shio, Tomoya Kishida, et al. "Synthesis of High-Entropy Perovskite Hydroxides as Bifunctional Electrocatalysts for Oxygen Evolution Reaction and Oxygen Reduction Reaction." Materials 17, no. 12 (2024): 2963. http://dx.doi.org/10.3390/ma17122963.

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Oxygen reduction reaction (ORR) and oxygen evolutionc reaction (OER) are important chemical reactions for a rechargeable lithium–oxygen battery (LOB). Recently, high-entropy alloys and oxides have attracted much attention because they showed good electrocatalytic performance for oxygen evolution reaction (OER) and/or oxygen reduction reaction (ORR). In this study, we aimed to synthesize and characterize CoSn(OH)6 and two types of high-entropy perovskite hydroxides, that is, (Co0.2Cu0.2Fe0.2Mn0.2Mg0.2)Sn(OH)6 (CCFMMSOH) and (Co0.2Cu0.2Fe0.2Mn0.2Ni0.2)Sn(OH)6 (CCFMNSOH). TEM observation and XRD
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4

Guo, Yaxiao, Changshuai Shang, Jing Li, and Erkang Wang. "Recent development of hydrogen evolution, oxygen evolution and oxygen reduction reaction." SCIENTIA SINICA Chimica 48, no. 8 (2018): 926–40. http://dx.doi.org/10.1360/n032018-00063.

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5

Fang, Xing, Chunlin Shang, Qing Zhang, Shuya Liu, and Songlin Chen. "Preparation and application of nickel-based compounds." Journal of Physics: Conference Series 3026, no. 1 (2025): 012066. https://doi.org/10.1088/1742-6596/3026/1/012066.

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Abstract Hydrogen energy, as a pure, efficient and safe green energy source, has great development potential and is gradually emerging. The hydrogen production technology of water electrolysis is regarded as the core carrier of hydrogen energy in the future, which involves two key semi-reactions: hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). Among these two half reactions, the hydrogen evolution reaction has a slower kinetic rate due to its four-electron coupling mechanism compared with the oxygen evolution reaction, which undoubtedly greatly restricts the overall effi
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6

Sui, Chenxi, Kai Chen, Liming Zhao, Li Zhou, and Qu-Quan Wang. "MoS2-modified porous gas diffusion layer with air–solid–liquid interface for efficient electrocatalytic water splitting." Nanoscale 10, no. 32 (2018): 15324–31. http://dx.doi.org/10.1039/c8nr04082f.

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The formation and adsorption of bubbles on electrodes weaken the efficiency of gas evolution reactions such as the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) by hindering proton transfer and consuming nucleation energy.
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7

Swathi, S., B. Jansi Rani, R. Yuvakkumar, et al. "Cobalt-based derivatives oxygen evolution reaction." Applied Nanoscience 11, no. 4 (2021): 1367–78. http://dx.doi.org/10.1007/s13204-021-01782-y.

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8

Seitz, L. C., B. A. Pinaud, D. Nordlund, Y. Gorlin, A. Gallo, and T. F. Jaramillo. "CoTiOxCatalysts for the Oxygen Evolution Reaction." Journal of The Electrochemical Society 162, no. 12 (2015): H841—H846. http://dx.doi.org/10.1149/2.0931510jes.

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9

Willems, H., A. G. C. Kobussen, I. C. Vinke, J. H. W. De Wit, and G. H. J. Broers. "The oxygen evolution reaction on cobalt." Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 194, no. 2 (1985): 287–303. http://dx.doi.org/10.1016/0022-0728(85)85011-7.

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10

Li, Zhengsheng, Ruitang Guo, Zhidong Lin, et al. "Facile synthesis of Co3O4 nanoparticles with different morphology for efficient water oxidation in alkaline media." Journal of Physics: Conference Series 2263, no. 1 (2022): 012013. http://dx.doi.org/10.1088/1742-6596/2263/1/012013.

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Abstract Hydrogen production from water electrolysis is an important measure to achieve clean and sustainable energy in the future. Oxygen evolution reaction is a half-reaction of water electrolysis process, and its efficiency has a great influence on the overall reaction. The morphology of the catalyst has a great influence on the catalytic performance of the catalyst for oxygen evolution, but the mechanism of the effect of the morphology on the activity is still unclear. Therefore, the influence of the catalyst morphology on the catalytic activity needs to be studied urgently. Co3O4 is widel
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11

S. Amer, Mabrook, Mohamed A. Ghanem, Prabhakarn Arunachalam, Abdullah M. Al-Mayouf, and Talal A. Aljohani. "Modification Of Mesoporous Titanium Dioxide With Cobalt Oxide Electrocatalyst For Enhanced Oxygen Evolution Reaction." Advanced Materials Letters 10, no. 2 (2018): 136–44. http://dx.doi.org/10.5185/amlett.2019.2139.

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12

Elbaz, Lior, and Wenjamin Moschkowitsch. "Electrocatalyzing Oxygen Evolution Reaction with Nifeooh Aerogels." ECS Meeting Abstracts MA2022-02, no. 44 (2022): 1680. http://dx.doi.org/10.1149/ma2022-02441680mtgabs.

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Increasing the production capacity of electrical energy to fulfill the continuously rising global demand, while simultaneously trying to avoid greenhouse gas emissions in the process, and being environmentally sound, is one of the largest challenges of this era.One way to achieve it is to rely on hydrogen for energy storage. Nowadays, most of the hydrogen produced is mainly from fossil fuels, and the emission of detrimental gasses is only shifted. To get to a true green hydrogen, it is necessary to produce it in emissions-free processes. One method to achieve this is to use renewable energies
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13

Akhdhar, Abdullah, Abdullah S. Al-Bogami, Waleed A. El-Said, Farhan Zafar, and Naeem Akhtar. "Machine Learning Driven Synthesis of Cobalt Oxide Entrapped Heteroatom-Doped Graphitic Carbon Nitride for Enhanced Oxygen Evolution Reaction." PLOS One 20, no. 6 (2025): e0324357. https://doi.org/10.1371/journal.pone.0324357.

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Developing highly efficient electrocatalysts for the oxygen evolution reaction is hindered by sluggish multi-electron kinetics, poor charge transfer efficiency, and limited active site accessibility. Transition metal-based electrocatalysts, such as cobalt oxides, have shown promise. However, poor charge transfer efficiency, limited active site accessibility, and suboptimal interaction with support materials have lowered their oxygen evolution reaction performance. Additionally, optimization of materials remains a complex task, often relying on trial-and-error approaches that do not clearly und
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14

Oh, Taeseob, Seokgyu Ryu, Hyunwoo Oh, and Jooheon Kim. "MnCo2O4 nanoparticles supported on nitrogen and sulfur co-doped mesoporous carbon spheres as efficient electrocatalysts for oxygen catalytic reactions." Dalton Transactions 48, no. 3 (2019): 945–53. http://dx.doi.org/10.1039/c8dt03955k.

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15

Sun, Xiaorui, and Jia Yang. "A Mini Review on Borate Photocatalysts for Water Decomposition: Synthesis, Structure, and Further Challenges." Molecules 29, no. 7 (2024): 1549. http://dx.doi.org/10.3390/molecules29071549.

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The development of novel photocatalysts, both visible and UV-responsive, for water decomposition reactions is of great importance. Here we focused on the application of the borates as photocatalysts in water decomposition reactions, including water splitting reaction, hydrogen evolution half-reaction, and oxygen evolution half-reaction. In addition, the rates of photocatalytic hydrogen evolution and oxygen evolution by these borate photocatalysts in different water decomposition reactions were summarized. Further, the review summarized the synthetic chemistry and structural features of existin
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16

Zhang, Rui. "Research Progress on Electrocatalytic Materials for Water Electrolysis." Frontiers in Sustainable Development 5, no. 2 (2025): 65–69. https://doi.org/10.54691/d9n32e40.

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Firstly, the application prospect of electrolytic water reaction is introduced, and then the relevant mechanisms of hydrogen evolution reaction and oxygen evolution reaction of electrolytic water are described. The research status of catalysts for hydrogen and oxygen evolution from electrolyzed water, mainly acid oxygen evolution catalyst and basic hydrogen evolution catalyst, was introduced. Finally, a summary and prospect of the water electrolysis catalyst are given.
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17

Österbacka, Nicklas, Hassan Ouhbi, Julia Wiktor, and Francesco Ambrosio. "The Effect of Oxygen Vacancies on Oxygen Evolution: The Case of BiVO_4." ECS Meeting Abstracts MA2023-02, no. 47 (2023): 2281. http://dx.doi.org/10.1149/ma2023-02472281mtgabs.

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Bismuth vanadate, BiVO4, is one of the most promising photoanode materials for the challenging oxygen evolution half-reaction in solar-driven water splitting. The material tends to be rich in oxygen vacancies, which strongly affects its photoelectrochemical properties. Experimental evidence suggests that oxygen deficiency is beneficial for the oxygen evolution reaction in the material, but the mechanism behind this enhancement is still controversial. The defects could be involved directly in the reaction if present at the surface, and the occupancy of the defect states could also play an impor
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18

Chen, Xin, Bing Shao, Meng-Juan Tang, et al. "Accurately metal-modulated bimetallic metal–organic frameworks as advanced trifunctional electrocatalysts." Journal of Materials Chemistry A 9, no. 26 (2021): 14682–90. http://dx.doi.org/10.1039/d1ta01224j.

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19

Tao, Hengcong, Yunnan Gao, Neetu Talreja, et al. "Two-dimensional nanosheets for electrocatalysis in energy generation and conversion." Journal of Materials Chemistry A 5, no. 16 (2017): 7257–84. http://dx.doi.org/10.1039/c7ta00075h.

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20

Bian, Yaru, Hao Wang, Zhi Gao, Jintang Hu, Dong Liu, and Liming Dai. "A facile approach to high-performance trifunctional electrocatalysts by substrate-enhanced electroless deposition of Pt/NiO/Ni on carbon nanotubes." Nanoscale 12, no. 27 (2020): 14615–25. http://dx.doi.org/10.1039/d0nr03378b.

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21

Chebrolu, Venkata Thulasivarma, Balamuralitharan Balakrishnan, Selvaraj Aravindha Raja, Inho Cho, Jin-Soo Bak, and Hee-Je Kim. "The one-step electrodeposition of nickel phosphide for enhanced supercapacitive performance using 3-mercaptopropionic acid." New Journal of Chemistry 44, no. 19 (2020): 7690–97. http://dx.doi.org/10.1039/d0nj00367k.

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TMPs have received considerable attention for various applications, including the water splitting reaction (hydrogen evolution reaction and oxygen evolution reaction), methanol oxidation, the oxygen reduction reaction, rechargeable batteries, and supercapacitors.
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22

Zou, Wenjian, Kunpeng Dou, Qi Jiang, Jiadong Xiang, Chao-Cheng Kaun, and Hao Tang. "Nearly spherical CoP nanoparticle/carbon nanosheet hybrids: a high-performance trifunctional electrocatalyst for oxygen reduction and water splitting." RSC Advances 9, no. 68 (2019): 39951–57. http://dx.doi.org/10.1039/c9ra07334e.

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The CoP nanoparticles/carbon sheets hybrid structures are highly efficient trifunctional electrocatalytic activities toward the oxygen reduction reaction, oxygen evolution reaction, and hydrogen evolution reaction under alkaline condition.
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23

Kim, Jaemin, Xi Yin, Kai-Chieh Tsao, Shaohua Fang, and Hong Yang. "Ca2Mn2O5 as Oxygen-Deficient Perovskite Electrocatalyst for Oxygen Evolution Reaction." Journal of the American Chemical Society 136, no. 42 (2014): 14646–49. http://dx.doi.org/10.1021/ja506254g.

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24

Zhu, Kaiyue, Fang Shi, Xuefeng Zhu, and Weishen Yang. "The roles of oxygen vacancies in electrocatalytic oxygen evolution reaction." Nano Energy 73 (July 2020): 104761. http://dx.doi.org/10.1016/j.nanoen.2020.104761.

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25

Kuczyński, Mateusz, Mateusz Łuba, Tomasz Mikołajczyk, and Bogusław Pierożyński. "The Effect of Resorcinol on the Kinetics of Underpotentially Deposited Hydrogen and the Oxygen Evolution Reaction, Studied on Polycrystalline Pt in a 0.5 M H2SO4 Solution." Energies 15, no. 3 (2022): 1092. http://dx.doi.org/10.3390/en15031092.

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This article reports on the influence of resorcinol (RC) on the kinetics of underpotential deposition of hydrogen (UPD of H) and the oxygen evolution reaction (OER), studied on a polycrystalline Pt electrode in a 0.5 M sulphuric acid supporting solution. It is well known that both PEM fuel cells and water electrolysers’ electrodes often contain significant amounts of nanostructured Pt or other types of noble metal particles. These materials provide the superior catalytic activity of electrochemical reactions such as OER (oxygen evolution reaction), HER (hydrogen evolution reaction) and ORR (ox
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26

Zhen, Janet, Tucker Forbes, Timothy Lin, Jinhui Tao, Mark H. Engelhard, and Jingjing Qiu. "Investigation of Plasmon-Mediated Oxygen Evolution Reaction." ECS Meeting Abstracts MA2024-01, no. 53 (2024): 2868. http://dx.doi.org/10.1149/ma2024-01532868mtgabs.

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To achieve a carbon-neutral future, sustainable energy is needed through storing energy through its chemical bond. Water electrolysis, an exemplary form of electrocatalysis, presents an example of storing energy within chemical bonds of the high-energy hydrogen gas. Nevertheless, the anodic reaction involved in the oxygen evolution reaction (OER) poses limitations on the overall rate of the process. Plasmonic gold nanoparticles (Au NPs) have been added to enhance the charge transfer at the interface of the OER electrocatalysts and electrolyte under light illumination.1-3 However, the mechanist
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27

Li, Ying, Xuefeng Lu, Yunfang Li, and Xueqing Zhang. "Oxygen evolution reaction in nanoconfined carbon nanotubes." Physica E: Low-dimensional Systems and Nanostructures 99 (May 2018): 1–5. http://dx.doi.org/10.1016/j.physe.2018.01.003.

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28

Eftekhari, Ali. "Tuning the electrocatalysts for oxygen evolution reaction." Materials Today Energy 5 (September 2017): 37–57. http://dx.doi.org/10.1016/j.mtener.2017.05.002.

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29

Wang, Jingjing, and Hua Chun Zeng. "CoHPi Nanoflakes for Enhanced Oxygen Evolution Reaction." ACS Applied Materials & Interfaces 10, no. 7 (2018): 6288–98. http://dx.doi.org/10.1021/acsami.7b17257.

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30

Xie, Qixian, Daojin Zhou, Pengsong Li, et al. "Enhancing oxygen evolution reaction by cationic surfactants." Nano Research 12, no. 9 (2019): 2302–6. http://dx.doi.org/10.1007/s12274-019-2410-z.

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31

Lin, Zhi Tao, Bo Zhu, Xue Lin, Yang Chen, and Yu Zhen Liu. "Study on the Mechanism of the Anodic Oxidation of PAN-Based Carbon Fibers by Cyclic Voltammetry." Advanced Materials Research 774-776 (September 2013): 832–35. http://dx.doi.org/10.4028/www.scientific.net/amr.774-776.832.

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The cyclic voltammograms (CVs) of polyacrylonitrile (PAN)-based carbon fibers (CFs) were measured in different electrolyte aqueous solutions, temperatures and concentrations. By analyzing the CVs, the mechanism of the anodic oxidation of PANbased CFs was investigated. The results show that the anodic oxidation of CFs is virtually the activated oxygen formed by oxygen evolution reaction of water reacts with the surface carbon of CFs. Although there are more activated oxygen formed in alkaline electrolytes, surface oxides of CFs are easier to be formed in acidic electrolytes. The higher temperat
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32

Trębala, Michał, and Agata Łamacz. "Modern Catalytic Materials for the Oxygen Evolution Reaction." Molecules 30, no. 8 (2025): 1656. https://doi.org/10.3390/molecules30081656.

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The oxygen evolution reaction (OER) has, in recent years, attracted great interest from scientists because of its prime role in a number of renewable energy technologies. It is one of the reactions that occurs during hydrogen production through water splitting, is used in rechargeable metal–air batteries, and plays a fundamental role in regenerative fuel cells. Therefore, there is an emerging need to develop new, active, stable, and cost-effective materials for OER. This review presents the latest research on various groups of materials, showing their potential to be used as OER electrocatalys
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33

"Oxygen evolution reaction catalysis." Focus on Catalysts 2017, no. 1 (2017): 7. http://dx.doi.org/10.1016/j.focat.2016.12.044.

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34

Zhou, Jianlin. "Application of Oxygen Reduction Reaction, Oxygen Evolution Reaction and Hydrogen Evolution Reaction in Electrochemical Biosensing." International Journal of Electrochemical Science, November 2022, ArticleID:221152. http://dx.doi.org/10.20964/2022.11.54.

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35

Zhang, Nana, Zilan Zhang, Siwei Yan, et al. "Bridge‐Oxygen Bond: An Active Group for Energy Electrocatalysis." Advanced Functional Materials, March 20, 2025. https://doi.org/10.1002/adfm.202500351.

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AbstractEnergy electrocatalytic reactions such as hydrogen evolution reaction, oxygen evolution reaction, oxygen reduction reaction, nitrogen reduction reaction, carbon reduction reaction, etc., are important reactions to solve the current energy shortage and the increasing environmental problems. Developing novel and efficient catalyts for these reactions has become an essential and urgent issue. Catalysts incorporating bridge‐oxygen bond have received increasing attention due to their superior conductivity and stability, which are favorable for optimizing the reaction mechanism and improving
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36

Lin, Haoyang, Pengfei Liu, and Huagui Yang. "Oxygen coverage effect promotes oxygen evolution reaction." Chemical Synthesis 4, no. 4 (2024). http://dx.doi.org/10.20517/cs.2024.123.

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37

Suo, Hongli, and Wei-Hong Lai. "Mechanisms of Oxygen Evolution Reaction in Metal Oxides: Adsorbate Evolution Mechanism versus Lattice Oxygen Mechanism." Materials Lab 2 (2023). http://dx.doi.org/10.54227/mlab.20220054.

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Water electrolysis provides a promising technology for hydrogen production, but the sluggish four-electron conversion-process of the oxygen evolution reaction results in high overpotential and a low efficiency of water splitting. To rationalize and improve the performance of oxygen evolution reaction, it is crucial to understand the electrochemical mechanisms occurring in cells and monitor the structural changes of newly developed catalysts. As the most recognized mechanisms, the adsorbate evolution mechanism and the lattice oxygen mechanism have been utilized to explain the physical and chemi
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38

He, Hong-zhe, Yan Zhang, Yuanyuan Li, and Ping Wang. "Recent innovations of silk-derived electrocatalysts for hydrogen evolution reaction, oxygen evolution reaction and oxygen reduction reaction." International Journal of Hydrogen Energy, December 2020. http://dx.doi.org/10.1016/j.ijhydene.2020.11.265.

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39

Tomar, Shalini, Prasenjit Sen, and Sudip Chakraborty. "Single Atom Functionalization in Vanadium Dichalcogenide Monolayers: Towards Enhanced Electrocatalytic Activity." Sustainable Energy & Fuels, 2022. http://dx.doi.org/10.1039/d2se00985d.

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Our work focused on the first-principle study of comparative analysis for the enhancement of hydrogen evolution reaction (HER), oxygen evolution reactions (OER), and oxygen reduction reactions (ORR) activities on the...
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40

Wang, Xiaopeng, Haoyin Zhong, Shibo Xi, Wee Siang Vincent Lee, and Junmin Xue. "Understanding of Oxygen Redox in Oxygen Evolution Reaction." Advanced Materials, July 19, 2022, 2107956. http://dx.doi.org/10.1002/adma.202107956.

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41

"Microelectrochemical Detection of Reaction Products of Oxygen Reduction and Oxygen Evolution Reactions." ECS Meeting Abstracts, 2012. http://dx.doi.org/10.1149/ma2012-01/40/1494.

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42

Hu, Mengyu, Hanzhi Yu, Chong Chen, Yukun Zhang, Changjiang Hu, and Jun Ma. "Gamma-rays induced strong coupling between Ru nanoparticle and cobalt-based metal organic framework nanolayer for methanol oxidation and hydrogen evolution." New Journal of Chemistry, 2024. http://dx.doi.org/10.1039/d4nj04418e.

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The development of anodic reactions with accelerated kinetics to replace the oxygen evolution reaction (OER) reaction to promote the hydrogen evolution reaction (HER) with high value-added production is of crucial...
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43

Wu, Siqi, Zexin Liang, Tianshi Wang, Xiaobin Liu, and Shaobo Huang. "In situ characterization techniques: main tools for revealing OER/ORR catalytic mechanism and reaction dynamics." Inorganic Chemistry Frontiers, 2025. https://doi.org/10.1039/d4qi02179g.

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44

Terlapu, Sai Vani, and Ranjit Bauri. "Mn-doped Cobalt oxide dodecahedron nanocages as an efficient bifunctional electrocatalyst for zinc-air batteries." Sustainable Energy & Fuels, 2024. http://dx.doi.org/10.1039/d4se00956h.

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The oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) play a vital role in the functioning of Zn–air batteries and similar energy storage systems. These reactions are kinetically sluggish,...
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45

Shui, Yewen, Nanping Deng, Yilong Wang, et al. "Recent progresses of MOFs and their derivatives-carbon fiber composite materials for oxygen electrocatalysis." Journal of Materials Chemistry A, 2024. http://dx.doi.org/10.1039/d4ta03760j.

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Oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) are key reactions for fuel cells and metal-air batteries, which are of great significance for the researches of new environmentally friendly...
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46

Poudel, Milan Babu, S. Vijayapradeep, Karthikeyan Sekar, Jong Seok Kim, and Jin Yoo Dong. "Pyridinic-N exclusively enriched CNT encapsulated NiFe interfacial alloy nanoparticles on knitted carbon fiber cloth for bifunctional oxygen catalysts and biaxially flexible zinc-air batteries." Journal of Materials Chemistry A, 2024. http://dx.doi.org/10.1039/d3ta07609a.

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The electrocatalytic oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) are the core reactions responsible for reversible zinc-air batteries but are kinetically challenging because of the complex multielectron transfer...
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47

Wu, Xing, Chongjian Tang, Yi Cheng, Xiaobo Min, San Ping Jiang, and Shuangyin Wang. "Frontispiece: Bifunctional Catalysts for Reversible Oxygen Evolution Reaction and Oxygen Reduction Reaction." Chemistry – A European Journal 26, no. 18 (2020). http://dx.doi.org/10.1002/chem.202081862.

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48

Okasha, Mohamed, and Vivek Maheshwari. "Facile Tailoring of a Multi-Element Nanocomposite for Electrocatalysis." Materials Advances, 2025. https://doi.org/10.1039/d4ma01262c.

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Multielement combinations either as high entropy alloys or as nanocomposites are highly effective electrocatalysts for key reactions such as the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER)....
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49

Bianco, Ettore, Fabrizio Sordello, Francesco Pellegrino, and Valter Maurino. "Enhancing HER rate over Pt-TiO2 nanoparticles under Controlled Periodic Illumination: Role of light modulation." Catalysis Science & Technology, 2024. http://dx.doi.org/10.1039/d4cy00775a.

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In hydrogen production through water splitting, two reactions are involved: Hydrogen Evolution Reaction (HER) and Oxygen Evolution Reaction (OER), both with efficiency issues. In previous works, our group demonstrated the...
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50

Li, Yaxin, Xin Yu, Juan Gao, and Yurong Ma. "Hierarchical Ni2P/Zn-Ni-P Nanosheet Array for Efficient Energy-Saving Hydrogen Evolution and Hydrazine Oxidation." Journal of Materials Chemistry A, 2023. http://dx.doi.org/10.1039/d2ta08366c.

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Electrochemical overall water splitting (OWS) includes two half reactions of oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). Due to the limitation of the slow kinetic process of OER,...
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