ELECTROLYSIS

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Tailoring the Reversible Phase Transition of Perovskite Nanofiber Electrodes for High-Performance and Durable Reversible Solid Oxide Cells
《Nano-Micro Letters》2025年第6期559-574,共16页Chaofan Yin Jiaming Yang Jiangyuan Feng Yueyue Sun Zhengrong Liu Junkai Wang Jiajia Cui Zixuan Xue Liang Zhang Yucun Zhou Jun Zhou Liangfei Xu Kai Wu Jianqiu Li 
supported by the National Natural Science Foundation of China(No.52377212 and 51877173);program of Beijing Huairou Laboratory(ZD2022006A);the Key R&D Project of Shaanxi Province(2023-YBGY-057);the State Key Laboratory of Electrical Insulation and Power Equipment(EIPE22314,EIPE22306);the Natural Science Basic Research Program of Shaanxi(No.2023-JC-QN-0483).
Reversible solid oxide cells(RSOCs)are capable of converting various energy resources,between electricity and chemical fuels,with high efficiency and flexibility,making them suitable for grid balancing and renewable e...
关键词:Reversible solid oxide cells Reversible phase transition Exsolution and dissolution CO_(2)electrolysis 
Thin layers of Fe-doped ZnO deposited by spin-coating for electrolysis and photodetector applications
《Transactions of Nonferrous Metals Society of China》2025年第4期1262-1280,共19页Dikra BOURAS Mamoun FELLAH Regis BARILLE Amjad IQBAL Hamadi FOUZIA Obrosov ALEKSEI Gamal AEL-HITI 
the support received from the Researchers Supporting Project(No.RSP2024R404),King Saud University,Riyadh,Saudi Arabia。
The effect of iron concentration on the microstructural and structural properties of ZnO for electrolysis and photodetector applications was investigated.The thin layers of un-doped and doped ZnO with different percen...
关键词:Fe:ZnO gap energy ELECTROLYSIS PHOTODETECTOR efficiency 
Stable core-shell Janus BiAg bimetallic catalyst for CO_(2) electrolysis into formate
《Chinese Chemical Letters》2025年第3期415-421,共7页Yaoyin Lou Xiaoyang Jerry Huang Kuang-Min Zhao Mark J.Douthwaite Tingting Fan Fa Lu Ouardia Akdim Na Tian Shigang Sun Graham J.Hutchings 
the Max Planck Centre for Fundamental Heterogeneous Catalysis(FUNCAT)for financial support;The authors acknowledge funding from the National Natural Science Foundation of China(No.22002131);China Postdoctoral Science Foundation(No.2020M671963)。
CO_(2)electrolysis into formate is a promising technology with the potential to simultaneously alleviate energy shortages and global warming.However,the limited stability of the catalysts during long-term electrolysis...
关键词:CO_(2) reduction Cascade catalysis FORMATE BiAg JANUS 
Engineering eg filling of RuO_(2) enables a robust and stable acidic water oxidation
《Chinese Chemical Letters》2025年第3期444-448,共5页Qing Li Yumei Feng Yingjie Yu Yazhou Chen Yuhua Xie Fang Luo Zehui Yang 
supported by the National Natural Science Foundation of China(No.22209126).
Efficient and stable electrocatalyst for oxygen evolution reaction(OER)in acidic environment is vital for polymer electrolyte membrane water electrolysis(PEMWE).In this work,we have devised the formation of heterostru...
关键词:Oxygen evolution reaction Polymer electrolyte membrane water ELECTROLYSIS DEPROTONATION e_(g)filling HETEROSTRUCTURE 
Carbonization-engineered ultrafast chemical reaction on nanointerface
《Chinese Chemical Letters》2025年第3期576-580,共5页Tiantian Long Hongmei Luo Jingbo Sun Fengniu Lu Yi Chen Dong Xu Zhiqin Yuan 
supported by the National Natural Science Foundation of China(Nos.82160153,21505162,22074005,and 22101027);Natural Science Foundation of Hunan Province,China(No.2022SK2102);Hunan Provincial Department of Education Scientific Research Project(No.240994);the Natural Science Foundation of Beijing Municipality(No.2202038).
Ultrafast reaction kinetics is essential for rapid detection,synthesis,and process monitoring,but the intrinsic energy barrier as a basic material property is challenging to tailor.With the involvement of nanointerfac...
关键词:Ultrafast reaction kinetics CARBONIZATION ELECTROLYSIS Dual-channel response Multifunctional nanoparticles 
High performance CO reduction at electrolyzer stack level through system optimization
《Carbon Energy》2025年第3期148-156,共9页Mohd Monis Ayyub Tamás Fődi Balázs Endrődi Csaba Janáky 
Nemzeti Kutatási Fejlesztésiés Innovációs Hivatal,Grant/Award Number:RRF-2.3.1-21-2022-00009;Horizon 2020 Framework Programme,Grant/Award Number:862453。
This study demonstrates the electrochemical reduction of carbon monoxide(COR)at high current densities in a zero-gap electrolyzer cell and cell stack.By systematically optimizing both the commercially available membra...
关键词:CO reduction ELECTROLYSIS membrane electrode assembly scale-up 
Construction of Ni_(2)P/CoP interface for highly efficient electrolysis of urea-assisted hydrogen production at industrial current densities
《Chinese Journal of Catalysis》2025年第2期163-175,共13页Borong Lu Chunmei Lv Ying Xie Kai Zhu Ke Ye Xiaojin Li 
国家重点研发计划(2021YFB4001700);山东省自然科学基金-重大基础研究项目(ZR2022ZD10);青岛市自然科学基金(23-2-1-221-zyyd-jch);QIBEBT国际合作项目(QIBEBTICP202303);青岛新能源山东省实验室开放课题(QNESLOP202303)。
Interface chemical modulation strategies are considered as promising method to prepare electrocatalysts for the urea oxidation reaction(UOR).However,conventional interface catalysts are generally limited by the inhere...
关键词:Interface chemical strategy Theoretical predictions Advanced interface construction Directed charge transfer Urea oxidation reaction 
New Insights into Controlling the Functional Properties of Tin Oxide-Based Materials
《电化学(中英文)》2025年第1期41-56,共16页Alexandra Kuriganova Nina Smirnova 
supported by the Ministry of Science and Higher Education of the Russian Federation under Project FENN-2024-0002.
Development of methodologies for fabrications of nanostructured materials that provide control over their microstructural features and compositions represents a fundamental step in the advancement of technologies for ...
关键词:Tin oxide Pulse electrolysis Lithium-ion battery PHOTOCATALYSIS Fuel cell 
Proton exchange membrane-based electrocatalytic systems for hydrogen production
《Carbon Energy》2025年第1期292-311,共20页Yangyang Zhou Hongjing Zhong Shanhu Chen Guobin Wen Liang Shen Yanyong Wang Ru Chen Li Tao Shuangyin Wang 
National Key R&D Program of China,Grant/Award Number:2021YFA1500900;Basic and Applied Basic Research Foundation of Guangdong Province-Regional Joint Fund Project,Grant/Award Number:2021B1515120024;Science Funds of the Education Office of Jiangxi Province,Grant/Award Number:GJJ2201324;Science Funds of Jiangxi Province,Grant/Award Numbers:20242BAB25168,20224BAB213018;Doctoral Research Start-up Funds of JXSTNU,Grant/Award Number:2022BSQD05;China Postdoctoral Science Foundation,Grant/Award Number:2023M741121;National Natural Science Foundation of China,Grant/Award Number:22172047;Provincial Natural Science Foundation of Hunan,Grant/Award Number:2021JJ30089;Shenzhen Science and Technology Program,Grant/Award Number:JCYJ20210324122209025;Changsha Municipal Natural Science Foundation,Grant/Award Number:kq2107008;Hunan Province of Huxiang Talent project,Grant/Award Number:2023rc3118;Natural Science Foundation of Hunan Province,Grant/Award Number:2022JJ10006.
Hydrogen energy from electrocatalysis driven by sustainable energy has emerged as a solution against the background of carbon neutrality.Proton exchange membrane(PEM)-based electrocatalytic systems represent a promisi...
关键词:ELECTROLYSIS hydrogen production proton exchange membrane 
Electrocatalytic lignin oxidation for hydrogen and fine chemical co-production using platinized nickel foam in a 3D printed reactor
《DeCarbon》2024年第4期46-51,共6页Mohmmad Khalid Biswajit Samir De Samaneh Shahgaldi 
This project received financial support from Natural Sciences and Engineering Research Council of Canada via a Discovery Grant(2022-00058);Canada Research Chair Fund(3266004);The Fonds de recherche du Quebec-Nature et technologies FRQNT(NCR-327419);We would also like to thank Intlvac Thin Film team for the support.
Biomass electrooxidation has garnered much attention in recent years,owing to its potential to circumvent greenhouse gas emissions.Substituting the sluggish water oxidation with biomass oxidizable species such as lign...
关键词:Lignin electrolysis Water electrolysis OVERPOTENTIAL Fine chemicals Hydrogen production 
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