Xianbiao Fu (付先彪)
Xianbiao Fu (付先彪)
Technical University of Denmark, Johns Hopkins University, Northwestern University, UESTC, CSU
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Advanced electrocatalysts with single-metal-atom active sites
Y Wang, H Su, Y He, L Li, S Zhu, H Shen, P Xie, X Fu, G Zhou, C Feng, ...
Chemical reviews 120 (21), 12217-12314, 2020
Two-dimensional copper nanosheets for electrochemical reduction of carbon monoxide to acetate
W Luc#, X Fu#, J Shi, JJ Lv, M Jouny, BH Ko, Y Xu, Q Tu, X Hu, J Wu, ...
Nature Catalysis 2 (5), 423-430, 2019
Alternative route for electrochemical ammonia synthesis by reduction of nitrate on copper nanosheets
X Fu, X Zhao, X Hu, K He, Y Yu, T Li, Q Tu, X Qian, Q Yue, ...
Applied Materials Today 19, 100620, 2020
Continuous-flow electrosynthesis of ammonia by nitrogen reduction and hydrogen oxidation
X Fu, JB Pedersen, Y Zhou, M Saccoccio, S Li, R Sažinas, K Li, ...
Science 379 (6633), 707-712, 2023
Electrosynthesis of ammonia with high selectivity and high rates via engineering of the solid-electrolyte interphase
S Li, Y Zhou, K Li, M Saccoccio, R Sažinas, SZ Andersen, JB Pedersen, ...
Joule 6 (9), 2083-2101, 2022
High-Entropy Alloy Nanosheets for Fine-Tuning Hydrogen Evolution
X Fu#, J Zhang#, S Zhan, F Xia, C Wang, D Ma, Q Yue, J Wu, Y Kang
ACS Catalysis 12, 11955-11959, 2022
Catalyst design by scanning probe block copolymer lithography
L Huang, PC Chen, M Liu, X Fu, P Gordiichuk, Y Yu, C Wolverton, Y Kang, ...
Proceedings of the National Academy of Sciences 115 (15), 3764-3769, 2018
Scalable chemical interface confinement reduction BiOBr to bismuth porous nanosheets for electroreduction of carbon dioxide to liquid fuel
X Fu, J Wang, X Hu, K He, Q Tu, Q Yue, Y Kang
Advanced Functional Materials 32 (10), 2107182, 2022
Acid/hydrazide-appended covalent triazine frameworks for low-pressure CO2 capture: pre-designable or post-synthesis modification
Y Fu, Z Wang, X Fu, J Yan, C Liu, C Pan, G Yu
Journal of Materials Chemistry A 5 (40), 21266-21274, 2017
Recent advances and challenges of electrochemical ammonia synthesis
X Fu, J Zhang, Y Kang
Chem Catalysis, 2022
Asymmetrical C–C coupling for electroreduction of CO on bimetallic Cu–Pd catalysts
H Shen, Y Wang, T Chakraborty, G Zhou, C Wang, X Fu, Y Wang, J Zhang, ...
ACS Catalysis 12 (9), 5275-5283, 2022
Exploiting dynamic water structure and structural sensitivity for nanoscale electrocatalyst design
S Intikhab, L Rebollar, X Fu, Q Yue, Y Li, Y Kang, MH Tang, JD Snyder
Nano Energy 64, 103963, 2019
Three-dimensional carbon material as stable host for dendrite-free lithium metal anodes
Y Xu, L Wang, W Jia, Y Yu, R Zhang, T Li, X Fu, X Niu, J Li, Y Kang
Electrochimica Acta 301, 251-257, 2019
Core‐Shell Nanostructured Ru@ Ir–O Electrocatalysts for Superb Oxygen Evolution in Acid
J Zhang#, X Fu#, F Xia, W Zhang, D Ma, Y Zhou, H Peng, J Wu, X Gong, ...
Small, 2108031, 2022
Hyper-crosslinked aromatic polymers with improved microporosity for enhanced CO 2/N 2 and CO 2/CH 4 selectivity
D Chen, S Gu, Y Fu, X Fu, Y Zhang, G Yu, C Pan
New Journal of Chemistry 41 (14), 6834-6839, 2017
High-entropy alloy nanoparticles as a promising electrocatalyst to enhance activity and durability for oxygen reduction
Y Yu, F Xia, C Wang, J Wu, X Fu*, D Ma, B Lin, J Wang, Q Yue*, Y Kang
Nano Research, 1-9, 2022
Electrochemical reduction of CO 2 towards multi-carbon products via a two-step process
X Fu, J Zhang, Y Kang
Reaction Chemistry & Engineering 6 (4), 612-628, 2021
Two-Dimensional Pd Rafts Confined in Copper Nanosheets for Selective Semihydrogenation of Acetylene
X Fu#, J Liu#, S Kanchanakungwankul, X Hu, Q Yue, DG Truhlar, ...
Nano Letters 21 (13), 5620-5626, 2021
Chemical upgrade of carbon monoxide to acetate on an atomically dispersed copper catalyst via CO-insertion
X Fu, Y Wang, H Shen, Y Yu, F Xu, G Zhou, W Xie, R Qin, C Dun, CW Pao, ...
Materials Today Physics 19, 100418, 2021
Covalent organic frameworks catalysts
X Fu, G Yu
Progress in Chemistry 28 (7), 1006, 2016
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