MXene molecular sieving membranes for highly efficient gas separation L Ding, Y Wei, L Li, T Zhang, H Wang, J Xue, LX Ding, S Wang, J Caro, ... MXenes, 853-873, 2023 | 994 | 2023 |
Molybdenum carbide nanodots enable efficient electrocatalytic nitrogen fixation under ambient conditions H Cheng, LX Ding, GF Chen, L Zhang, J Xue, H Wang Advanced Materials 30 (46), 1803694, 2018 | 727 | 2018 |
Water Transport with Ultralow Friction through Partially Exfoliated g‐C3N4 Nanosheet Membranes with Self‐Supporting Spacers Y Wang, L Li, Y Wei, J Xue, H Chen, L Ding, J Caro, H Wang Angewandte Chemie International Edition 56 (31), 8974-8980, 2017 | 307 | 2017 |
Paralyzed membrane: Current-driven synthesis of a metal-organic framework with sharpened propene/propane separation S Zhou, Y Wei, L Li, Y Duan, Q Hou, L Zhang, LX Ding, J Xue, H Wang, ... Science advances 4 (10), eaau1393, 2018 | 279 | 2018 |
Titanium carbide Ti3C2Tx (MXene) enhanced PAN nanofiber membrane for air purification X Gao, ZK Li, J Xue, Y Qian, LZ Zhang, J Caro, H Wang Journal of Membrane Science 586, 162-169, 2019 | 134 | 2019 |
Enabled efficient ammonia synthesis and energy supply in a zinc–nitrate battery system by separating nitrate reduction process into two stages H Jiang, GF Chen, O Savateev, J Xue, LX Ding, Z Liang, M Antonietti, ... Angewandte Chemie International Edition 62 (13), e202218717, 2023 | 127 | 2023 |
A CO2-tolerance oxygen permeable 60Ce0. 9Gd0. 1O2− δ–40Ba0. 5Sr0. 5Co0. 8Fe0. 2O3− δ dual phase membrane J Xue, Q Liao, Y Wei, Z Li, H Wang Journal of Membrane Science 443, 124-130, 2013 | 109 | 2013 |
Roadmap for sustainable mixed ionic‐electronic conducting membranes G Chen, A Feldhoff, A Weidenkaff, C Li, S Liu, X Zhu, J Sunarso, K Huang, ... Advanced Functional Materials 32 (6), 2105702, 2022 | 100 | 2022 |
Bioinspired Ti3C2Tx MXene‐Based Ionic Diode Membrane for High‐Efficient Osmotic Energy Conversion L Ding, M Zheng, D Xiao, Z Zhao, J Xue, S Zhang, J Caro, H Wang Angewandte Chemie International Edition 61 (41), e202206152, 2022 | 98 | 2022 |
A Dual‐Phase Ceramic Membrane with Extremely High H2 Permeation Flux Prepared by Autoseparation of a Ceramic Precursor S Cheng, Y Wang, L Zhuang, J Xue, Y Wei, A Feldhoff, J Caro, H Wang Angewandte Chemie International Edition 55 (36), 10895-10898, 2016 | 92 | 2016 |
Graphene oxide-modified g-C3N4 nanosheet membranes for efficient hydrogen purification Y Zhou, Y Zhang, J Xue, R Wang, Z Yin, L Ding, H Wang Chemical Engineering Journal 420, 129574, 2021 | 86 | 2021 |
Gas to liquids: natural gas conversion to aromatic fuels and chemicals in a hydrogen-permeable ceramic hollow fiber membrane reactor J Xue, Y Chen, Y Wei, A Feldhoff, H Wang, J Caro Acs Catalysis 6 (4), 2448-2451, 2016 | 83 | 2016 |
Enhanced water flux through graphitic carbon nitride nanosheets membrane by incorporating polyacrylic acid Y Wang, L Liu, J Xue, J Hou, L Ding, H Wang AIChE Journal 64 (6), 2181-2188, 2018 | 78 | 2018 |
Enhanced antipressure ability through graphene oxide membrane by intercalating g‐C3N4 nanosheets for water purification L Liu, Y Zhou, J Xue, H Wang AIChE Journal 65 (10), e16699, 2019 | 74 | 2019 |
Covalent organic framework membranes for efficient chemicals separation R Wang, J Guo, J Xue, H Wang Small Structures 2 (10), 2100061, 2021 | 67 | 2021 |
Preparation and oxygen permeation of U‐shaped perovskite hollow‐fiber membranes Y Wei, H Liu, J Xue, Z Li, H Wang AIChE journal 57 (4), 975-984, 2011 | 61 | 2011 |
CO2-stable Ce0. 9Gd0. 1O2− δ-perovskite dual phase oxygen separation membranes and the application in partial oxidation of methane to syngas J Xue, L Chen, Y Wei, H Wang Chemical Engineering Journal 327, 202-209, 2017 | 59 | 2017 |
Ultrathin and ultrastrong kevlar aramid nanofiber membranes for highly stable osmotic energy conversion L Ding, D Xiao, Z Zhao, Y Wei, J Xue, H Wang Advanced Science 9 (25), 2202869, 2022 | 57 | 2022 |
Oxygen separation through U‐shaped hollow fiber membrane using pure CO2 as sweep gas Y Wei, J Tang, L Zhou, J Xue, Z Li, H Wang AIChE journal 58 (9), 2856-2864, 2012 | 54 | 2012 |
A new CO 2-resistant Ruddlesden–Popper oxide with superior oxygen transport: A-site deficient (Pr 0.9 La 0.1) 1.9 (Ni 0.74 Cu 0.21 Ga 0.05) O 4+ δ J Xue, Q Liao, W Chen, HJM Bouwmeester, H Wang, A Feldhoff Journal of Materials Chemistry A 3 (37), 19107-19114, 2015 | 53 | 2015 |