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一、专辑介绍
电催化:
电催化是指在电化学反应中,通过使用催化剂来加速电子的转移过程,从而提高反应速率和效率的现象。电催化剂本身在反应过程中不会被消耗,它们通常作为电极材料或者被添加到电极表面,以促进特定的电化学反应。电催化析氢反应(Hydrogen Evolution Reaction,HER)是一种通过电化学方法利用催化剂产生氢气的过程。它是实现氢能经济的关键技术之一,氢气作为一种高能量密度和环境友好的能源载体,被认为是未来能源结构的重要组成部分,高效析氢电催化剂的设计吸引了研究人员的广泛关注。
本推文简介:精选8篇发表在Nano-Micro Letters《纳微快报(英文)》上电催化析氢反应相关的论文。分别来自兰州大学殷杰&席聘贤团队、厦门大学王耀辉&李剑锋团队、南京邮电大学赵强&王龙禄团队、厦门大学张桥保教授&洛阳师范学院刘献明教授、上海大学王亮&新加坡南洋理工大学刘政&华东理工大学练成、武汉理工大学木士春课题组、电子科技大学张亚刚课题组、澳大利亚昆士兰科技大学的Ting Liao和Ziqi Sun课题组。
二、精选文章
1.Precisely Control Relationship between Sulfur Vacancy and H Absorption for Boosting Hydrogen Evolution Reaction (Article)
中文题目:精确控制硫空位与吸附氢关系促进析氢反应
Jing Jin, Xinyao Wang, Yang Hu, Zhuang Zhang, Hongbo Liu, Jie Yin and Pinxian Xi
Nano-Micro Lett. 16, 63 (2024).
https://doi.org/10.1007/s40820-023-01291-3
2. Exploring the Cation Regulation Mechanism for Interfacial Water Involved in the Hydrogen Evolution Reaction by In Situ Raman Spectroscopy (Article)
中文题目:原位拉曼光谱探索析氢反应中界面水的阳离子调控机制
Xueqiu You, Dongao Zhang, Xia-Guang Zhang, Xiangyu Li, Jing-Hua Tian, Yao-Hui Wang and Jian-Feng Li
Nano-Micro Lett. 16, 53 (2024).
https://doi.org/10.1007/s40820-023-01285-1
3. Deformable Catalytic Material Derived from Mechanical Flexibility for Hydrogen Evolution Reaction (Review)
中文题目:用于析氢反应的柔性可变形催化材料
Fengshun Wang, Lingbin Xie, Ning Sun, Ting Zhi, Mengyang Zhang, Yang Liu, Zhongzhong Luo, Lanhua Yi, Qiang Zhao and Longlu Wang
Nano-Micro Lett. 16, 32 (2024).
https://doi.org/10.1007/s40820-023-01251-x
4. Machine Learning-Assisted Low-Dimensional Electrocatalysts Design for Hydrogen Evolution Reaction (Review)
Jin Li, Naiteng Wu, Jian Zhang, Hong-Hui Wu, Kunming Pan, Yingxue Wang, Guilong Liu, Xianming Liu, Zhenpeng Yao and Qiaobao Zhang
Nano-Micro Lett. 15, 227 (2023).
https://doi.org/10.1007/s40820-023-01192-5
5. Graphene Quantum Dot-Mediated Atom-Layer Semiconductor Electrocatalyst for Hydrogen Evolution (Article)
中文题目:石墨烯量子点介导合成原子层半导体催化剂用于电解水析氢
Bingjie Hu, Kai Huang, Bijun Tang, Zhendong Lei, Zeming Wang, Huazhang Guo, Cheng Lian, Zheng Liu and Liang Wang Bingjie Hu, Kai Huang, Bijun Tang, Zhendong Lei, Zeming Wang, Huazhang Guo, Cheng Lian, Zheng Liu and Liang Wang
Nano-Micro Lett. 15, 217 (2023).
https://doi.org/10.1007/s40820-023-01182-7
6. Tuning Active Metal Atomic Spacing by Filling of Light Atoms and Resulting Reversed Hydrogen Adsorption-Distance Relationship for Efficient Catalysis (Article)
Ding Chen, Ruihu Lu, Ruohan Yu, Hongyu Zhao, Dulan Wu, Youtao Yao, Kesong Yu, Jiawei Zhu, Pengxia Ji, Zonghua Pu, Zongkui Kou, Jun Yu, Jinsong Wu and Shichun Mu
Nano-Micro Lett. 15, 168 (2023).
https://doi.org/10.1007/s40820-023-01142-1
7. Synergistic Effect of Dual-Doped Carbon on Mo₂C Nanocrystals Facilitates Alkaline Hydrogen Evolution (Article)
中文题目: B、N双掺杂超薄碳层包覆Mo₂C纳米晶、大幅提升碱性HER反应催化性能
Min Zhou, Xiaoli Jiang, Weijie Kong, Hangfei Li, Fei Lu, Xin Zhou and Yagang Zhang
Nano-Micro Lett. 15, 166 (2023).
https://doi.org/10.1007/s40820-023-01135-0
8. Conversion of Catalytically Inert 2D Bismuth Oxide Nanosheets for Effective Electrochemical Hydrogen Evolution Reaction Catalysis via Oxygen Vacancy Concentration Modulation (Article)
中文题目:调节氧空位浓度激活惰性二维Bi₂O₃纳米片,用于高效HER
Ziyang Wu, Ting Liao, Sen Wang, Janith Adikaram Mudiyanselage, Aaron S. Micallef, Wei Li, Anthony P. O’Mullane, Jianping Yang, Wei Luo, Kostya Ostrikov, Yuantong Gu and Ziqi Sun
Nano-Micro Lett. 14, 90 (2022).
https://doi.org/10.1007/s40820-022-00832-6
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