Activating Inert Basal Planes of MoS2 for Hydrogen Evolution Reaction through the Formation of Different Intrinsic Defects Y Ouyang, C Ling, Q Chen, Z Wang, L Shi, J Wang Chemistry of Materials 28 (12), 4390-4396, 2016 | 448 | 2016 |
Nanosheet supported single-metal atom bifunctional catalyst for overall water splitting C Ling, L Shi, Y Ouyang, XC Zeng, J Wang Nano letters 17 (8), 5133-5139, 2017 | 432 | 2017 |
Transition Metal‐Promoted V2CO2 (MXenes): A New and Highly Active Catalyst for Hydrogen Evolution Reaction C Ling, L Shi, Y Ouyang, Q Chen, J Wang Advanced Science 3 (11), 1600180, 2016 | 344 | 2016 |
Searching for highly active catalysts for hydrogen evolution reaction based on O-terminated MXenes through a simple descriptor C Ling, L Shi, Y Ouyang, J Wang Chemistry of Materials 28 (24), 9026-9032, 2016 | 303 | 2016 |
Breaking scaling relations for efficient CO 2 electrochemical reduction through dual-atom catalysts Y Ouyang, L Shi, X Bai, Q Li, J Wang Chemical science 11 (7), 1807-1813, 2020 | 283 | 2020 |
Recent advances in oxidation and degradation mechanisms of ultrathin 2D materials under ambient conditions and their passivation strategies Q Li, Q Zhou, L Shi, Q Chen, J Wang Journal of Materials Chemistry A 7 (9), 4291-4312, 2019 | 217 | 2019 |
New Mechanism for N2 Reduction: The Essential Role of Surface Hydrogenation C Ling, Y Zhang, Q Li, X Bai, L Shi, J Wang Journal of the American Chemical Society 141 (45), 18264-18270, 2019 | 205 | 2019 |
Vacancy-defect modulated pathway of photoreduction of CO2 on single atomically thin AgInP2S6 sheets into olefiant gas W Gao, L Shi, H He, X Li, Z Cheng, Y Yang, J Wang, Q Shen, X Wang, ... Nature Communications 12 (1), 1-8, 2021 | 198 | 2021 |
Foam–like Co9S8/Ni3S2 heterostructure nanowire arrays for efficient bifunctional overall water–splitting F Du, L Shi, Y Zhang, T Li, J Wang, G Wen, A Alsaedi, T Hayat, Y Zhou, ... Applied Catalysis B: Environmental 253, 246-252, 2019 | 163 | 2019 |
Highly efficient photo-/electrocatalytic reduction of nitrogen into ammonia by dual-metal sites S Wang, L Shi, X Bai, Q Li, C Ling, J Wang ACS central science 6 (10), 1762-1771, 2020 | 162 | 2020 |
Photo-oxidative degradation of methylammonium lead iodide perovskite: mechanism and protection Y Ouyang, Y Li, P Zhu, Q Li, Y Gao, J Tong, L Shi, Q Zhou, C Ling, Q Chen, ... Journal of Materials Chemistry A 7 (5), 2275-2282, 2019 | 160 | 2019 |
Metal-free electrocatalyst for reducing nitrogen to ammonia using a Lewis acid pair L Shi, Q Li, C Ling, Y Zhang, Y Ouyang, X Bai, J Wang Journal of Materials Chemistry A 7 (9), 4865-4871, 2019 | 129 | 2019 |
High intrinsic catalytic activity of two-dimensional boron monolayers for the hydrogen evolution reaction L Shi, C Ling, Y Ouyang, J Wang Nanoscale 9 (2), 533-537, 2017 | 128 | 2017 |
Hybrid Cu0 and Cux+ as Atomic Interfaces Promote High‐Selectivity Conversion of CO2 to C2H5OH at Low Potential X Bai, Q Li, L Shi, X Niu, C Ling, J Wang Small 16 (12), 1901981, 2020 | 111 | 2020 |
A new Dirac cone material: a graphene-like Be 3 C 2 monolayer B Wang, S Yuan, Y Li, L Shi, J Wang Nanoscale 9 (17), 5577-5582, 2017 | 95 | 2017 |
Half-metallicity and enhanced ferromagnetism in Li-adsorbed ultrathin chromium triiodide Y Guo, S Yuan, B Wang, L Shi, J Wang Journal of Materials Chemistry C 6 (21), 5716-5720, 2018 | 84 | 2018 |
Template-Grown MoS2 Nanowires Catalyze the Hydrogen Evolution Reaction: Ultralow Kinetic Barriers with High Active Site Density C Ling, Y Ouyang, L Shi, S Yuan, Q Chen, J Wang ACS Catalysis 7 (8), 5097-5102, 2017 | 84 | 2017 |
Insight into the catalytic activity of MXenes for hydrogen evolution reaction X Bai, C Ling, L Shi, Y Ouyang, Q Li, J Wang Science bulletin 63 (21), 1397-1403, 2018 | 79 | 2018 |
Oxidation mechanism and protection strategy of ultrathin indium selenide: insight from theory L Shi, Q Zhou, Y Zhao, Y Ouyang, C Ling, Q Li, J Wang The journal of physical chemistry letters 8 (18), 4368-4373, 2017 | 77 | 2017 |
Perspective on theoretical methods and modeling relating to electro-catalysis processes Q Li, Y Ouyang, S Lu, X Bai, Y Zhang, L Shi, C Ling, J Wang Chemical Communications 56 (69), 9937-9949, 2020 | 76 | 2020 |