Electrochemical ammonia synthesis via nitrate reduction on Fe single atom catalyst ZY Wu, M Karamad, X Yong, Q Huang, DA Cullen, P Zhu, C Xia, Q Xiao, ... Nature communications 12 (1), 2870, 2021 | 812 | 2021 |
Direct electrosynthesis of pure aqueous H2O2 solutions up to 20% by weight using a solid electrolyte C Xia, Y Xia, P Zhu, L Fan, H Wang Science 366 (6462), 226-231, 2019 | 701 | 2019 |
Continuous production of pure liquid fuel solutions via electrocatalytic CO2 reduction using solid-electrolyte devices C Xia, P Zhu, Q Jiang, Y Pan, W Liang, E Stavitski, HN Alshareef, H Wang Nature Energy 4 (9), 776-785, 2019 | 560 | 2019 |
Efficient conversion of low-concentration nitrate sources into ammonia on a Ru-dispersed Cu nanowire electrocatalyst FY Chen, ZY Wu, S Gupta, DJ Rivera, SV Lambeets, S Pecaut, JYT Kim, ... Nature nanotechnology 17 (7), 759-767, 2022 | 462 | 2022 |
General synthesis of single-atom catalysts with high metal loading using graphene quantum dots C Xia, Y Qiu, Y Xia, P Zhu, G King, X Zhang, Z Wu, JY Kim, DA Cullen, ... Nature chemistry 13 (9), 887-894, 2021 | 402 | 2021 |
Electrochemical CO2 reduction to high-concentration pure formic acid solutions in an all-solid-state reactor L Fan, C Xia, P Zhu, Y Lu, H Wang Nature communications 11 (1), 3633, 2020 | 377 | 2020 |
Non-iridium-based electrocatalyst for durable acidic oxygen evolution reaction in proton exchange membrane water electrolysis ZY Wu, FY Chen, B Li, SW Yu, YZ Finfrock, DM Meira, QQ Yan, P Zhu, ... Nature Materials 22 (1), 100-108, 2023 | 300 | 2023 |
Highly active and selective oxygen reduction to H2O2 on boron-doped carbon for high production rates Y Xia, X Zhao, C Xia, ZY Wu, P Zhu, JY Kim, X Bai, G Gao, Y Hu, J Zhong, ... Nature Communications 12 (1), 4225, 2021 | 293 | 2021 |
High-purity and high-concentration liquid fuels through CO2 electroreduction P Zhu, H Wang Nature Catalysis 4 (11), 943-951, 2021 | 175 | 2021 |
Direct and continuous generation of pure acetic acid solutions via electrocatalytic carbon monoxide reduction P Zhu, C Xia, CY Liu, K Jiang, G Gao, X Zhang, Y Xia, Y Lei, HN Alshareef, ... Proceedings of the National Academy of Sciences 118 (2), e2010868118, 2021 | 128 | 2021 |
Electrochemical oxygen reduction to hydrogen peroxide at practical rates in strong acidic media X Zhang, X Zhao, P Zhu, Z Adler, ZY Wu, Y Liu, H Wang Nature communications 13 (1), 2880, 2022 | 127 | 2022 |
Recovering carbon losses in CO2 electrolysis using a solid electrolyte reactor JYT Kim#, P Zhu#, FY Chen, ZY Wu, DA Cullen, H Wang Nature Catalysis 5 (4), 288-299, 2022 | 112 | 2022 |
Two-Dimensional SnO2 Nanosheets for Efficient Carbon Dioxide Electroreduction to Formate J Li, J Jiao, H Zhang, P Zhu, H Ma, C Chen, H Xiao, Q Lu ACS sustainable chemistry & engineering 8 (12), 4975-4982, 2020 | 73 | 2020 |
A general synthesis of single atom catalysts with controllable atomic and mesoporous structures ZY Wu#, P Zhu#, DA Cullen, Y Hu, QQ Yan, SC Shen, FY Chen, H Yu, ... Nature Synthesis 1 (8), 658-667, 2022 | 64 | 2022 |
Proton sponge promotion of electrochemical CO2 reduction to multi-carbon products L Fan, CY Liu, P Zhu, C Xia, X Zhang, ZY Wu, Y Lu, TP Senftle, H Wang Joule 6 (1), 205-220, 2022 | 64 | 2022 |
Continuous carbon capture in an electrochemical solid-electrolyte reactor P Zhu, ZY Wu, A Elgazzar, C Dong, TU Wi, FY Chen, Y Xia, Y Feng, ... Nature 618 (7967), 959-966, 2023 | 62 | 2023 |
Structural evolution of oxide-/hydroxide-derived copper electrodes accounts for the enhanced C2+ product selectivity during electrochemical CO2 reduction P Zhu, H Wang Sci. Bull. 65 (12), 977-979, 2020 | 15 | 2020 |
Cobalt‐Doped Bismuth Nanosheet Catalyst for Enhanced Electrochemical CO2 Reduction to Electrolyte‐Free Formic acid R Nankya, Y Xu, A Elgazzar, P Zhu, TU Wi, C Qiu, Y Feng, F Che, H Wang Angewandte Chemie International Edition, e202403671, 0 | 1 | |
Catalyst design and reactor engineering for electrochemical CO2 reduction to formate and formic acid R Nankya, A Elgazzar, P Zhu, FY Chen, H Wang Materials Today, 2024 | | 2024 |
Hydrogen Peroxide Electrosynthesis in a Strong Acidic Environment Using Cationic Surfactants Z Adler, X Zhang, G Feng, Y Shi, P Zhu, Y Xia, X Shan, H Wang Precision Chemistry 2 (4), 129-137, 2024 | | 2024 |