Harvey, Catherine Delacroix, Simon Tard, Cédric
Selective oxidation of water without production of chlorine during the electrolysis of seawater is a critical impediment towards obtaining green hydrogen. Indeed, understanding the complex competitive mechanisms of oxygen and chlorine formation at the anode is an analytic challenge. An argument for direct seawater electrolysis is presented with a d...
Wang, Rui Zhang, Ziqi Suo, Jinquan Liao, Li Li, Leibo Yu, Zhuochen Zhang, Heng Valtchev, Valentin Qiu, Shilun Fang, Qianrong
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Metal-free electrocatalysts play a crucial role in enabling practical water splitting for future clean energy production by facilitating the oxygen evolution reaction (OER). However, the preparation of such electrocatalysts presents significant challenges due to the limitations of the kinetically sluggish anodic half-cell reaction, which restricts ...
Altaf, Amna Sohail, Manzar Altaf, Muhammad Nafady, Ayman Sher, Muhammad Wahab, Md A.
Amorphous inorganic perovskites have attracted significant attention as efficient electrocatalysts due to their unique structural flexibility and good catalytic activity. In particular, the disordered structure and a surface rich in defects such as oxygen vacancies can contribute to the superior electrocatalytic activity of amorphous oxides compare...
Kashale, Anil Ashok Rasal, Akash Sanjay Hsu, Fei-Chien Chen, ChangChun Kulkarni, Sayali Nitin Chang, Chun Hao Chang, Jia-Yaw Lai, Yuekun Chen, I-Wen Peter
Published in
Journal of colloid and interface science
Hydrogen has a high energy density of approximately 120 to 140 MJ kg-1, which is very high compared to other natural energy sources. However, hydrogen generation through electrocatalytic water splitting is a high electricity consumption process due to the sluggish oxygen evolution reaction (OER). As a result, hydrogen generation through hydrazine-a...
Wu, Chao Wang, Xiaopeng Tang, Ying Zhong, Haoyin Zhang, Xin Zou, Anqi Zhu, Jiliang Diao, Caozheng Xi, Shibo Xue, Junmin
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Published in
Angewandte Chemie (International ed. in English)
A fundamental understanding of surface reconstruction process is pivotal to developing highly efficient lattice oxygen oxidation mechanism (LOM) based electrocatalysts. Traditionally, the surface reconstruction in LOM based metal oxides is believed as an irreversible oxygen redox behavior, due to the much slower rate of OH- refilling than that of o...
Liu, Ming Li, Na Wang, Xuemin Zhao, Jia Zhong, Di-Chang Li, Wei Bu, Xian-He
Published in
Angewandte Chemie (International ed. in English)
The mismatched fast-electron-slow-proton process in the electrocatalytic oxygen evolution reaction (OER) severely restricts the catalytic efficiency. To overcome these issues, accelerating the proton transfer and elucidating the kinetic mechanism are highly sought after. Herein, inspired by photosystem II, we develop a family of OER electrocatalyst...
Kumari, Simran
The urgent global need for sustainable solutions has propelled the search for efficient catalytic systems. This thesis focuses on key reactions crucial for achieving a greener and more sustainable future. Employing computational techniques and theoretical models, the research investigates catalytic processes to unravel fundamental principles, guidi...
Risch, Marcel Morales, Dulce M. Villalobos, Javier Antipin, Denis
Published in
Angewandte Chemie (International Ed. in English)
Electrochemical methods and X‐ray absorption spectroscopy are powerful tools to understand electrocatalysis on an atomistic level, yet the combination of these methods still holds untapped potential.
Fa, Dejuan Tao, Yanhong Pan, Xin Wang, Dingjia Feng, Guangyuan Yuan, Jiangyan Luo, Qingqing Song, Yaru Gao, Xuejiao J Yang, Ling
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Published in
Angewandte Chemie (International ed. in English)
Innovative bimetallic materials provide more possibilities for further improving the performance of oxygen evolution reaction (OER) electrocatalysts. However, it is still a great challenge to rationally design bimetallic catalysts because there is not a practical way to decouple the factors influencing the intrinsic activity of active sites from ot...
Yu, Mingquan Weidenthaler, Claudia Wang, Yue Budiyanto, Eko Onur Sahin, Ezgi Chen, Minmin DeBeer, Serena Rüdiger, Olaf Tüysüz, Harun
Published in
Angewandte Chemie (International ed. in English)
Herein, we show that coupling boron with cobalt oxide tunes its structure and significantly boost its electrocatalytic performance for the oxygen evolution reaction (OER). Through a simple precipitation and thermal treatment process, a series of Co-B oxides with tunable morphologies and textural parameters were prepared. Detailed structural analysi...