ELECTROLYSIS

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Sc-doped strontium iron molybdenum cathode for high-efficiency CO_(2)electrolysis in solid oxide electrolysis cell
《燃料化学学报(中英文)》2025年第2期272-281,共10页LIU Zhen ZHANG Lihong XU Chunming WANG Zhenhua QIAO Jinshuo SUN Wang SUN Kening 
supported by National Key R&D Program of China(2021YFB4001401);National Natural Science Foundation of China(52272190,22178023).
Solid oxide electrolysis cells(SOECs)can effectively convert CO_(2)into high value-added CO fuel.In this paper,Sc-doped Sr_(2)Fe_(1.5)Mo_(0.3)Sc_(0.2)O_(6−δ)(SFMSc)perovskite oxide material is synthesized via solid-p...
关键词:solid oxide electrolysis cells CATHODE PEROVSKITE ELECTRO-CATALYSIS element doping 
Towards energy-efficient(bi)carbonate electrolysis:Innovation and challenges被引量:1
《National Science Open》2024年第6期8-11,共4页Kewen Xing Junmei Chen Yanguang Li 
supported by the National Natural Science Foundation of China(52425209 and 52161160331);the Science and Technology Development Fund Macao SAR(0077/2021/A2);the Collaborative Innovation Center of Suzhou Nano Science and Technology,the Overseas Expertise Introduction Project for Discipline Innovation(111 Project);the Joint International Research Laboratory of Carbon-Based Functional Materials and Devices.
Electrochemical CO_(2) reduction reaction(CO_(2)RR)stands out as a promising approach for converting greenhouse gases into valuable chemicals and fuels,contributing to the closure of the artificial carbon loop.However...
关键词:GASES CLOSURE CONVERT 
Optimization of capacity configuration and comprehensive evaluation of a renewable energy electrolysis of water for hydrogen production system
《Chinese Journal of Chemical Engineering》2024年第12期301-317,共17页Huairong Zhou Xin Wu Chunlei Li Siyu Yang Zhichen Chen Jun Lu Chen Fang 
funded by Major Science and Technology Projects of Gansu Province(23ZDGF002);Hongliu Outstanding Youth Support Program of Lanzhou University of Technology(02-062212);the Joint Funds of the National Natural Science Foundation of China(U22A20415).
The global green hydrogen industry is experiencing rapid growth,but the high production costs are hindering its widespread adoption.To address this challenge,it is particularly important to rationally configure a rene...
关键词:Renewable energy Green hydrogen production Multi-energy coupling Capacity optimization System optimization 
Operando-reconstructed polyatomic ion layers boost the activity and stability of industrial current–density water splitting被引量:1
《Science Bulletin》2024年第21期3384-3394,共11页Yingxia Zhao Ying Wu Qunlei Wen Danji Huang Ruoou Yang Haozhi Wang Yingying Xu Ming Sun Youwen Liu Jiakun Fang Tianyou Zhai Lin Yu 
supported by the Foundation of Basic and Applied Basic Research of Guangdong Province(2023B1515120043);the National Natural Science Foundation of China(22071069 and 22275060);the Yangfan Project of Maoming City(MMGCIRI2022YFJH-Y-014);Guangdong Basic and Applied Basic Research Foundation(2019A1515011512,2021A1515010172,and 2023A1515030274);the Foundation of the Smart Medical Innovation Technology Center in Guangdong University of Technology(ZYZX24-031);support from Analysis and Testing Center of Guangdong University of Technology。
Metal–organic frameworks have garnered attention as highly efficient pre-electrocatalysts for the oxygen evolution reaction(OER).Current structure–activity relationships primarily rely on the assumption that the comp...
关键词:Chemical recognition Oxygen evolution mechanism Industrial water electrolysis 
Next‑Generation Green Hydrogen: Progress and Perspective from Electricity, Catalyst to Electrolyte in Electrocatalytic Water Splitting
《Nano-Micro Letters》2024年第11期274-322,共49页Xueqing Gao Yutong Chen Yujun Wang Luyao Zhao Xingyuan Zhao Juan Du Haixia Wu Aibing Chen 
supported by the National Natural Science Foundation of China(U23A20573,U23A20140,22109038);the Starting Research Funds of Hebei University of Science and Technology,Hebei Natural Science Foundation(D2022208001);the S&T Program of Hebei(23314401D);Hebei Pharmaceutical and Chemical Technology Innovation Center(225676121H).
Green hydrogen from electrolysis of water has attracted widespread attention as a renewable power source.Among several hydrogen production methods,it has become the most promising technology.However,there is no large-...
关键词:HYDROGEN ELECTROLYSIS Hydrogen production Renewable energy CATALYST 
Recent advances and key perspectives of in-situ studies for oxygen evolution reaction in water electrolysis被引量:1
《Green Energy & Environment》2024年第10期1497-1517,共21页Yi Wang Zichen Xu Xianhong Wu Zhong-Shuai Wu 
support from National Natural Science Foundation of China(Grant Nos.22125903,22209174);the National Key R&D Program of China(Grants 2022YFA1504100);Dalian Innovation Support Plan for High Level Talents(2019RT09);Dalian National Laboratory For Clean Energy(DNL),CAS,DNL Cooperation Fund,CAS(DNL202016,DNL202019);DICP(DICP I2020032).
Electricity-driven water splitting to produce hydrogen is one of the most efficient ways to alleviate energy crisis and environmental pollution problems,in which the anodic oxygen evolution reaction(OER)is the key hal...
关键词:In-situ studies Water splitting Oxygen evolution reaction Catalytic mechanism 
Research on typical operating conditions of hydrogen production system with off-grid wind power considering the characteristics of proton exchange membrane electrolysis cell
《Global Energy Interconnection》2024年第5期642-652,共11页Weiming Peng Yanhui Xu Gendi Li Jie Song Guizhi Xu Xiaona Xu Yan Pan 
supported by the National Key Research and Development Program of China(Program Number 2021YFB4000100);the Beijing Postdoctoral Research Foundation(Grant Number 2023-ZZ-63).
Hydrogen energy,with its abundant reserves,green and low-carbon characteristic,high energy density,diverse sources,and wide applications,is gradually becoming an important carrier in the global energy transformation a...
关键词:Wind power fluctuation Off-grid operation Hydrogen production by PEM electrolysis Neural network clustering Typical working conditions 
Enhancing Direct Electrochemical CO_(2)Electrolysis by Introducing A-Site Deficiency for the Dual-Phase Pr(Ca)Fe(Ni)O_(3-δ)Cathode
《Energy & Environmental Materials》2024年第5期206-214,共9页Wanhua Wang Haixia Li Ka-Young Park Taehee Lee Dong Ding Fanglin Chen 
supported by the U.S.Department of Energy’s Office of Energy Efficiency and Renewable Energy(EERE)under the Industrial Efficiency&Decarbonization Office award number[DE-EE0009427];the funding support by the U.S.Department of Energy(USDOE),Office of Energy Efficiency and Renewable Energy(EERE),Advanced Manufacturing Office(AMO),under DOE Idaho Operations Office under Contract No.DEAC07-05ID14517
High-temperature CO_(2)electrolysis via solid oxide electrolysis cells(CO_(2)-SOECs)has drawn special attention due to the high energy convention efficiency,fast electrode kinetics,and great potential in carbon cyclin...
关键词:A-site deficiency cathode material CO_(2)adsorption direct CO_(2)electrolysis solid oxide electrolysis cells 
Generating highly active oxide-phosphide heterostructure through interfacial engineering to break the energy scaling relation toward urea-assisted natural seawater electrolysis
《Journal of Energy Chemistry》2024年第10期687-699,I0014,共14页Ngoc Quang Tran Nam Hoang Vu Jianmin Yu Khanh Vy Pham Nguyen Thuy Tien Nguyen Tran Thuy-Kieu Truong Lishan Peng Thi Anh Le Yoshiyuki Kawazoe 
supported by the Vietnam National University,Ho Chi Minh City (Grant No.TX2024-50-01);partial supported by National Natural Science Foundation of China (Grant No.22209186)。
Urea-assisted natural seawater electrolysis is an emerging technology that is effective for grid-scale carbon-neutral hydrogen mass production yet challenging.Circumventing scaling relations is an effective strategy t...
关键词:Interfacial engineering Break scaling relationships Doping Natural seawater splitting Urea electrolysis 
CO_(2) electrolysis to formic acid for carbon neutralization
《Green Energy & Environment》2024年第9期1333-1335,共3页Kezhen Qi Shu-yuan Liu Yingjie Zhang Hui Zhang Vadim Popkov Oksana Almjasheva 
supported by the Natural Science Foundation of China (No. 22268003)。
To avoid carbonate precipitation for CO_(2) electrolysis,developing CO_(2) conversion in an acid electrolyte is viewed as an ultimately challenging technology.In Nature,Xia et al.recently explored a proton-exchange me...
关键词:CO_(2) electrolysis Proton-exchange membrane system Faradaic efficiency Carbon neutralization CO_(2) reduction reaction 
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