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Pingwei Cai
Pingwei Cai
在 fzu.edu.cn 的电子邮件经过验证
标题
引用次数
引用次数
年份
Electrocatalysis for CO 2 conversion: from fundamentals to value-added products
G Wang, J Chen, Y Ding, P Cai, L Yi, Y Li, C Tu, Y Hou, Z Wen, L Dai
Chemical Society Reviews 50 (8), 4993-5061, 2021
6822021
Oxygen‐containing amorphous cobalt sulfide porous nanocubes as high‐activity electrocatalysts for the oxygen evolution reaction in an alkaline/neutral medium
P Cai, J Huang, J Chen, Z Wen
Angewandte Chemie 129 (17), 4936-4939, 2017
5452017
An electrochemically neutralized energy-assisted low-cost acid-alkaline electrolyzer for energy-saving electrolysis hydrogen generation
Y Li, J Chen, P Cai, Z Wen
Journal of Materials Chemistry A 6 (12), 4948-4954, 2018
2192018
Ru-RuO2/CNT hybrids as high-activity pH-universal electrocatalysts for water splitting within 0.73 V in an asymmetric-electrolyte electrolyzer
M Zhang, J Chen, H Li, P Cai, Y Li, Z Wen
Nano Energy 61, 576-583, 2019
1622019
Alkaline–Acid Zn–H2O Fuel Cell for the Simultaneous Generation of Hydrogen and Electricity
P Cai, Y Li, G Wang, Z Wen
Angewandte Chemie 130 (15), 3974-3979, 2018
1362018
Electrochemical neutralization energy: from concept to devices
Y Ding, P Cai, Z Wen
Chemical Society Reviews 50 (3), 1495-1511, 2021
1352021
Multifunctional high-activity and robust electrocatalyst derived from metal–organic frameworks
E Zhang, Y Xie, S Ci, J Jia, P Cai, L Yi, Z Wen
Journal of materials chemistry A 4 (44), 17288-17298, 2016
1302016
In situ integration of CoFe alloy nanoparticles with nitrogen-doped carbon nanotubes as advanced bifunctional cathode catalysts for Zn–air batteries
P Cai, Y Hong, S Ci, Z Wen
Nanoscale 8 (48), 20048-20055, 2016
1252016
FeCo alloy nanoparticles confined in carbon layers as high-activity and robust cathode catalyst for Zn-air battery
P Cai, S Ci, E Zhang, P Shao, C Cao, Z Wen
Electrochimica Acta 220, 354-362, 2016
1182016
Energy-efficient electrolytic hydrogen production assisted by coupling urea oxidation with a pH-gradient concentration cell
G Wang, J Chen, Y Li, J Jia, P Cai, Z Wen
Chemical communications 54 (21), 2603-2606, 2018
1052018
A self-supported Ni–Co perselenide nanorod array as a high-activity bifunctional electrode for a hydrogen-producing hydrazine fuel cell
G Wang, J Chen, P Cai, J Jia, Z Wen
Journal of Materials Chemistry A 6 (36), 17763-17770, 2018
882018
Robust 3D macroporous structures with SnS nanoparticles decorating nitrogen-doped carbon nanosheet networks for high performance sodium-ion batteries
X Hu, J Chen, G Zeng, J Jia, P Cai, G Chai, Z Wen
Journal of materials chemistry A 5 (45), 23460-23470, 2017
812017
Graphene-based electrode materials for microbial fuel cells
S Ci, P Cai, Z Wen, J Li
Science China Materials 58, 496-509, 2015
772015
Three-birds-with-one-stone electrolysis for energy-efficiency production of gluconate and hydrogen
D Zheng, J Li, S Ci, P Cai, Y Ding, M Zhang, Z Wen
Applied Catalysis B: Environmental 277, 119178, 2020
732020
Highly defective porous CoP nanowire as electrocatalyst for full water splitting
M Zhang, S Ci, H Li, P Cai, H Xu, Z Wen
International Journal of Hydrogen Energy 42 (49), 29080-29090, 2017
732017
N, P, and S co-doped 3D porous carbon-architectured cathode for high-performance Zn-ion hybrid capacitors
K Shang, Y Liu, P Cai, K Li, Z Wen
Journal of Materials Chemistry A 10 (12), 6489-6498, 2022
722022
One-step pyrolysis route to three dimensional nitrogen-doped porous carbon as anode materials for microbial fuel cells
L Bi, S Ci, P Cai, H Li, Z Wen
Applied Surface Science 427, 10-16, 2018
672018
Ultrathin ZnIn2S4 nanosheets decorating PPy nanotubes toward simultaneous photocatalytic H2 production and 1, 4-benzenedimethanol valorization
X Peng, J Li, L Yi, X Liu, J Chen, P Cai, Z Wen
Applied Catalysis B: Environmental 300, 120737, 2022
652022
Ferrocene-based porous organic polymer derived high-performance electrocatalysts for oxygen reduction
B Zhou, L Liu, P Cai, G Zeng, X Li, Z Wen, L Chen
Journal of materials chemistry A 5 (42), 22163-22169, 2017
652017
Fe Vacancies Induced Surface FeO6 in Nanoarchitectures of N‐Doped Graphene Protected β‐FeOOH: Effective Active Sites for pH‐Universal Electrocatalytic …
Y Li, J Huang, X Hu, L Bi, P Cai, J Jia, G Chai, S Wei, L Dai, Z Wen
Advanced Functional Materials 28 (34), 1803330, 2018
622018
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