Search Results - "Lv, Houfu"

Promoting exsolution of RuFe alloy nanoparticles on Sr2Fe1.4Ru0.1Mo0.5O6−δ via repeated redox manipulations for CO2 electrolysis by Lv, Houfu, Lin, Le, Zhang, Xiaomin, Li, Rongtan, Song, Yuefeng, Matsumoto, Hiroaki, Ta, Na, Zeng, Chaobin, Fu, Qiang, Wang, Guoxiong, Bao, Xinhe

“…Metal nanoparticles anchored on perovskite through in situ exsolution under reducing atmosphere provide catalytically active metal/oxide interfaces for CO 2…”
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In-situ exsolution of cobalt nanoparticles from La0.5Sr0.5Fe0.8Co0.2O3-δ cathode for enhanced CO2 electrolysis performance by Li, Jingwei, Liu, Qingxue, Song, Yuefeng, Lv, Houfu, Feng, Weicheng, Shen, Yuxiang, Guan, Chengzhi, Zhang, Xiaomin, Wang, Guoxiong

“…Solid oxide electrolysis cell (SOEC) is a promising technology for CO2 conversion and renewable energy storage with high efficiency. It is highly desirable to…”
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Iron-triggered exsolution of FeNi alloy nanoparticles via topotactic cation exchange on Pr0.7Sr0.3Cr0.9Ni0.1O3−δ perovskite for CO2 electrolysis by Lv, Houfu, Wang, Shuo, Shen, Yuxiang, Zhang, Xiaomin, Song, Yuefeng, Li, Rongtan, Ta, Na, Liu, Tianfu, Wang, Guoxiong, Bao, Xinhe

“…Perovskites with in situ exsolved metal nanoparticles have been extensively studied for CO2 electrolysis in solid oxide electrolysis cell. However, exsolution…”
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Enhanced ethylene selectivity and stability of Mo/ZSM5 upon modification with phosphorus in ethane dehydrogenation by Ji, Zhonghai, Lv, Houfu, Pan, Xiulian, Bao, Xinhe

“…[Display omitted] •Ethylene yield and stability are significantly enhanced on 2.5 wt.% P-modified Mo/ZSM5.•P reduces the acid strength and density and improves…”
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In Situ Investigation of Reversible Exsolution/Dissolution of CoFe Alloy Nanoparticles in a Co‐Doped Sr2Fe1.5Mo0.5O6−δ Cathode for CO2 Electrolysis by Lv, Houfu, Lin, Le, Zhang, Xiaomin, Song, Yuefeng, Matsumoto, Hiroaki, Zeng, Chaobin, Ta, Na, Liu, Wei, Gao, Dunfeng, Wang, Guoxiong, Bao, Xinhe

“…Reversible exsolution and dissolution of metal nanoparticles in perovskite has been investigated as an efficient strategy to improve CO2 electrolysis…”
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Atomic‐Scale Insight into Exsolution of CoFe Alloy Nanoparticles in La0.4Sr0.6Co0.2Fe0.7Mo0.1O3−δ with Efficient CO2 Electrolysis by Lv, Houfu, Liu, Tianfu, Zhang, Xiaomin, Song, Yuefeng, Matsumoto, Hiroaki, Ta, Na, Zeng, Chaobin, Wang, Guoxiong, Bao, Xinhe

“…In situ exsolution of metal nanoparticles in perovskite under reducing atmosphere is employed to generate a highly active metal–oxide interface for CO2…”
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A Reconstructed Cu2P2O7 Catalyst for Selective CO2 Electroreduction to Multicarbon Products by Sang, Jiaqi, Wei, Pengfei, Liu, Tianfu, Lv, Houfu, Ni, Xingming, Gao, Dunfeng, Zhang, Jiangwei, Li, Hefei, Zang, Yipeng, Yang, Fan, Liu, Zhi, Wang, Guoxiong, Bao, Xinhe

“…The electrochemical CO2 reduction reaction (CO2RR) over Cu‐based catalysts shows great potential for converting CO2 into multicarbon (C2+) fuels and chemicals…”
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Enhancing electrocatalytic CO2 reduction in solid oxide electrolysis cell with Ce0.9Mn0.1O2−δ nanoparticles-modified LSCM-GDC cathode by Zhang, Xiaomin, Song, Yuefeng, Guan, Fang, Zhou, Yingjie, Lv, Houfu, Wang, Guoxiong, Bao, Xinhe

“…[Display omitted] •Ce0.9Mn0.1O2−δ (CMO) nanoparticles are infiltrated into the LSCM-GDC cathode.•CMO nanoparticles increase three phase boundaries and surface…”
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Enhancing CO2 electrolysis performance with vanadium-doped perovskite cathode in solid oxide electrolysis cell by Zhou, Yingjie, Zhou, Zhiwen, Song, Yuefeng, Zhang, Xiaomin, Guan, Fang, Lv, Houfu, Liu, Qingxue, Miao, Shu, Wang, Guoxiong, Bao, Xinhe

“…CO2 electrolysis using solid oxide electrolysis cells (SOECs) is a promising technology for sustainable conversion of CO2 to chemicals and the intermittent…”
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(La0.75Sr0.25)0.95(Cr0.5Mn0.5)O3-δ-Ce0.8Gd0.2O1.9 scaffolded composite cathode for high temperature CO2 electroreduction in solid oxide electrolysis cell by Zhang, Xiaomin, Song, Yuefeng, Guan, Fang, Zhou, Yingjie, Lv, Houfu, Liu, Qingxue, Wang, Guoxiong, Bao, Xinhe

“…As a promising cathode material for CO2 electroreduction in solid oxide electrolysis cell, (La,Sr) (Cr,Mn)O3 perovskite usually suffers from insufficient…”
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Infiltration of Ce0.8Gd0.2O1.9 nanoparticles on Sr2Fe1.5Mo0.5O6-δ cathode for CO2 electroreduction in solid oxide electrolysis cell by Lv, Houfu, Zhou, Yingjie, Zhang, Xiaomin, Song, Yuefeng, Liu, Qingxue, Wang, Guoxiong, Bao, Xinhe

“…Solid oxide electrolysis cell (SOEC) can electrochemically convert CO2 to CO at the gas-solid interface with a high current density and Faradaic efficiency,…”
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In situ Construction of Metal/Perovskite Interfaces with Exsolved FeNi Alloy Nanoparticles for High-Temperature CO2 Electrolysis by Wu, Zichao, Lv, Houfu, Li, Jingwei, Ta, Na, Zhang, Xiaomin, Wang, Guoxiong, Bao, Xinhe

“…Solid oxide electrolysis cells (SOECs) show potential applications in CO2 utilization and renewable energy resources storage due to their fast kinetics and…”
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A vanadium-doped BSCF perovskite for CO2 electrolysis in solid oxide electrolysis cells by Liu, Qingxue, Song, Yuefeng, Li, Rongtan, Lv, Houfu, Feng, Weicheng, Shen, Yuxiang, Zhang, Xiaomin, Wang, Guoxiong, Bao, Xinhe

“…CO2 electrolysis through solid oxide electrolysis cells (SOECs) is a promising strategy for converting CO2 to useful fuels and chemicals powered by renewable…”
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Pd single site-anchored perovskite cathode for CO2 electrolysis in solid oxide electrolysis cells by Zhou, Yingjie, Lin, Le, Song, Yuefeng, Zhang, Xiaomin, Lv, Houfu, Liu, Qingxue, Zhou, Zhiwen, Ta, Na, Wang, Guoxiong, Bao, Xinhe

“…Pd single site-anchored La0.5Sr0.5FeO3-δ-Ce0.8Sm0.2O2-x (Pd-LSF(SDC)) cathode is constructed for CO2 electrolysis in solid oxide electrolysis cells. The…”
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In situ Construction of Metal/Perovskite Interfaces with Exsolved FeNi Alloy Nanoparticles for High-Temperature CO 2 Electrolysis by Wu, Zichao, Lv, Houfu, Li, Jingwei, Ta, Na, Zhang, Xiaomin, Wang, Guoxiong, Bao, Xinhe

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Metal bond strength regulation enables large-scale synthesis of intermetallic nanocrystals for practical fuel cells by Liang, Jiashun, Wan, Yangyang, Lv, Houfu, Liu, Xuan, Lv, Fan, Li, Shenzhou, Xu, Jia, Deng, Zhi, Liu, Junyi, Zhang, Siyang, Sun, Yingjun, Luo, Mingchuan, Lu, Gang, Han, Jiantao, Wang, Guoxiong, Huang, Yunhui, Guo, Shaojun, Li, Qing

“…Structurally ordered L1 0 -PtM (M = Fe, Co, Ni and so on) intermetallic nanocrystals, benefiting from the chemically ordered structure and higher stability,…”
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Interfacial Enhancement by γ‐Al2O3 of Electrochemical Oxidative Dehydrogenation of Ethane to Ethylene in Solid Oxide Electrolysis Cells by Song, Yuefeng, Lin, Le, Feng, Weicheng, Zhang, Xiaomin, Dong, Qiao, Li, Xiaobao, Lv, Houfu, Liu, Qingxue, Yang, Fan, Liu, Zhi, Wang, Guoxiong, Bao, Xinhe

“…Oxidative dehydrogenation of ethane (ODE) is limited by the facile deep oxidation and potential safety hazards. Now, electrochemical ODE reaction is…”
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Constructing Gradient Orbital Coupling to Induce Reactive Metal–Support Interaction in Pt-Carbide Electrocatalysts for Efficient Methanol Oxidation by Li, Shenzhou, Wang, Gang, Lv, Houfu, Lin, Zijie, Liang, Jiashun, Liu, Xuan, Wang, Yang-Gang, Huang, Yunhui, Wang, Guoxiong, Li, Qing

“…Reactive metal–support interaction (RMSI) is an emerging way to regulate the catalytic performance for supported metal catalysts. However, the induction of…”
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In Situ Self‐Assembled Active and Stable Ir@MnOx/La0.7Sr0.3Cr0.9Ir0.1O3−δ Interfaces for CO2 Electrolysis by Shen, Yuxiang, Wang, Shuo, Li, Rongtan, Lv, Houfu, Li, Mingrun, Ta, Na, Zhang, Xiaomin, Song, Yuefeng, Fu, Qiang, Wang, Guoxiong, Bao, Xinhe

“…Solid oxide electrolysis cells are prospective approaches for CO2 utilization but face significant challenges due to the sluggish reaction kinetics and poor…”
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In Situ Self-Assembled Active and Stable Ir@MnO x /La 0.7 Sr 0.3 Cr 0.9 Ir 0.1 O 3-δ Interfaces for CO 2 Electrolysis by Shen, Yuxiang, Wang, Shuo, Li, Rongtan, Lv, Houfu, Li, Mingrun, Ta, Na, Zhang, Xiaomin, Song, Yuefeng, Fu, Qiang, Wang, Guoxiong, Bao, Xinhe

“…Solid oxide electrolysis cells are prospective approaches for CO utilization but face significant challenges due to the sluggish reaction kinetics and poor…”
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