ELECTROLYSIS

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NiNC Catalysts in CO_(2)-to-CO Electrolysis
《Nano-Micro Letters》2025年第4期363-366,共4页Hao Zhang Menghui Qi Yong Wang 
the University of Oxford for the Mathematical, Physical and Life Sciences Division (MPLS) Enterprise and Innovation Fellowship;the support of Massachusetts Institute of Technology;the support of the National Key R&D Program of China (2021YFB3801600);the National Natural Science Foundation of China (22325204)。
CO_(2)-to-CO electrolyzer technology converts carbon dioxide into carbon monoxide using electrochemical methods,offering significant environmental and energy benefits by aiding in greenhouse gas mitigation and promoti...
关键词:NiNC catalysts CO_(2)-to-CO electrolyzer Faradaic efficiency Carbon crossover coefficient(CCC) Mesoporous structures 
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 
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 
Redox-manipulated RhO_(x)nanoclusters uniformly anchored on Sr_(2)Fe_(1.45)Rh_(0.05)Mo_(0.5)O_(6-δ)perovskite for CO_(2)electrolysis
《Fundamental Research》2024年第6期1515-1522,共8页Houfu Lv Le Lin Xiaomin Zhang Yuefeng Song Rongtan Li Jingwei Li Hiroaki Matsumoto Na Ta Chaobin Zeng Huimin Gong Qiang Fu Guoxiong Wang Xinhe Bao 
the National Key R&D Program of China(2017YFA0700102);the National Natural Science Foundation of China(22125205,22102175,92045302,22072146,and 21688102);Dalian National Laboratory for Clean Energy(DNL201923);the“Transformational Technologies for Clean Energy and Demonstration”Strategic Priority Research Program of the Chinese Academy of Sciences(XDA21070613);China Postdoctoral Science Foundation(2021M693124);G.X.Wang thanks the financial support from CAS Youth Innovation Promotion(Y201938).
The sluggish reaction kinetics of CO_(2)electroreduction in perovskite-based cathodes severely limits the efficiency of solid oxide electrolysis cells(SOECs).The construction of the high-density active sites on the pe...
关键词:Solid oxide electrolysis cell CO_(2)electrolysis Perovskite cathode In situ reductive exsolution Oxidative redispersion 
Scientometric analysis of research trends on solid oxide electrolysis cells for green hydrogen and syngas production被引量:1
《Frontiers in Energy》2024年第5期583-611,共29页Shimeng Kang Zehua Pan Jinjie Guo Yexin Zhou Jingyi Wang Liangdong Fan Chunhua Zheng Suk Won Cha Zheng Zhong 
supported by the National Natural Science Foundation of China(Grant Nos.52102226 and 11932005);the Department of Education of Guangdong Province,China(Grant Nos.2021KCXTD006 and 2021KQNCX272);the Science,Technology and Innovation Commission of Shenzhen Municipality,China(Grant Nos.GJHZ20220913143009017,JCYJ20210324120404013,and GXWD20220811165757005);the Development and Reform Commission of Shenzhen Municipality,China(Grant No.XMHT20220103004).
Solid oxide electrolysis cell(SOEC)is a promising water electrolysis technology that produces hydrogen or syngas through water electrolysis or water and carbon dioxide co-electrolysis.Green hydrogen or syngas can be p...
关键词:solid oxide electrolysis cell(SOEC) scientometric review knowledge network material development H_(2)O-CO_(2)co-electrolysis MODELING 
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 
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 
Enhancing selectivity in acidic CO_(2) electrolysis:Cation effects and catalyst innovation
《Chinese Journal of Catalysis》2024年第8期61-80,共20页Zichao Huang Tinghui Yang Yingbing Zhang Chaoqun Guan Wenke Gui Min Kuang Jianping Yang 
国家自然科学基金项目(52122312,22209024);上海市浦江计划项目(22PJ1400200);彤程研发基金(CPCIF-RA-0102);东华大学纤维材料改性国家重点实验室.
The electrochemical reduction of CO_(2)(eCO_(2)R)under ambient conditions is crucial for reducing carbon emissions and achieving carbon neutrality.Despite progress with alkaline and neutral electrolytes,their efficien...
关键词:ACIDIC CO_(2) electrolysis High selectivity Cation effects Catalyst design Competitive HER 
Lewis-base ligand-reshaped interfacial hydrogen-bond network boosts CO_(2) electrolysis被引量:1
《National Science Review》2024年第8期258-268,共11页Wangxin Ge Haolan Tao Lei Dong Yu Fan Yanpu Niu Yihua Zhu Cheng Lian Honglai Liu Hongliang Jiang Chunzhong Li 
supported by the National Key Research and Development Program (2022YFB3808400);the National Natural Science Foundation of China (22222804 and U22B20143);the Science and Technology Commission of Shanghai Municipality (22dz1205900);the Shanghai Municipal Science and Technology Major Project.
Both the catalyst and electrolyte strongly impact the performance of CO_(2) electrolysis.Despite substantial progress in catalysts,it remains highly challenging to tailor electrolyte compositions and understand their ...
关键词:CO_(2)electrolysis electrode-electrolyte interface Lewis acid-base interaction hydrogen-bonding interaction AIMD simulation 
MOF-derived 1D CGO Cathode for Efficient Solid Oxide Electrolysis Cells
《Chemical Research in Chinese Universities》2024年第4期737-746,共10页TIAN Jiayu SUN Qi LIU Pei DAI Jiuyi CAI Yezheng XU Miao YE Tian-Nan CHEN Jie-Sheng 
supported by the National Natural Science Foundation of China(Nos.22275121,21931005,22105122,52272265);the National Key R&D Program of China(No.2023YFA1506300);the Shanghai Municipal Science and Technology Major Project of China,the Open Foundation Commission of Shaoxing Research Institute of Renewable Energy and Molecular Engineering,China(No.JDSX2022038);the Project of Jiangxi Academy of Sciences,China(No.2023YSTZX01).
Solid oxide electrolysis cells(SOECs)provide a promising way for converting renewable energy into chemical fuels.Traditionally,NiO/CGO(nickel-gadolinium doped ceria)cermet has shown its excellent properties in ionic a...
关键词:Cerium metal-organic framework One-dimensional structure Gadolinium doped ceria CO_(2)activation co-Electrolysis 
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