A review of electrocatalytic reduction of dinitrogen to ammonia under ambient conditions X Cui, C Tang, Q Zhang Advanced Energy Materials 8 (22), 1800369, 2018 | 660 | 2018 |
Nanocarbon for oxygen reduction electrocatalysis: dopants, edges, and defects C Tang, Q Zhang Advanced Materials 29 (13), 1604103, 2017 | 584 | 2017 |
Spatially confined hybridization of nanometer‐sized NiFe hydroxides into nitrogen‐doped graphene frameworks leading to superior oxygen evolution reactivity C Tang, HS Wang, HF Wang, Q Zhang, GL Tian, JQ Nie, F Wei Advanced Materials 27 (30), 4516-4522, 2015 | 564 | 2015 |
Topological defects in metal‐free nanocarbon for oxygen electrocatalysis C Tang, HF Wang, X Chen, BQ Li, TZ Hou, B Zhang, Q Zhang, MM Titirici, ... Advanced materials 28 (32), 6845-6851, 2016 | 548 | 2016 |
Nitrogen‐doped aligned carbon nanotube/graphene sandwiches: facile catalytic growth on bifunctional natural catalysts and their applications as scaffolds for high‐rate lithium … C Tang, Q Zhang, MQ Zhao, JQ Huang, XB Cheng, GL Tian, HJ Peng, ... Advanced materials 26 (35), 6100-6105, 2014 | 545 | 2014 |
Defect Engineering toward Atomic Co–Nx–C in Hierarchical Graphene for Rechargeable Flexible Solid Zn‐Air Batteries C Tang, B Wang, HF Wang, Q Zhang Advanced materials 29 (37), 1703185, 2017 | 527 | 2017 |
A review of precious‐metal‐free bifunctional oxygen electrocatalysts: rational design and applications in Zn− air batteries HF Wang, C Tang, Q Zhang Advanced Functional Materials 28 (46), 1803329, 2018 | 434 | 2018 |
How to explore ambient electrocatalytic nitrogen reduction reliably and insightfully C Tang, SZ Qiao Chemical Society Reviews 48 (12), 3166-3180, 2019 | 379 | 2019 |
Multiscale principles to boost reactivity in gas-involving energy electrocatalysis C Tang, HF Wang, Q Zhang Accounts of chemical research 51 (4), 881-889, 2018 | 338 | 2018 |
Two-dimensional mosaic bismuth nanosheets for highly selective ambient electrocatalytic nitrogen reduction L Li, C Tang, B Xia, H Jin, Y Zheng, SZ Qiao ACS Catalysis 9 (4), 2902-2908, 2019 | 335 | 2019 |
CaO‐templated growth of hierarchical porous graphene for high‐power lithium–sulfur battery applications C Tang, BQ Li, Q Zhang, L Zhu, HF Wang, JL Shi, F Wei Advanced Functional Materials 26 (4), 577-585, 2016 | 325 | 2016 |
Bifunctional transition metal hydroxysulfides: room‐temperature sulfurization and their applications in Zn–air batteries HF Wang, C Tang, B Wang, BQ Li, Q Zhang Advanced Materials 29 (35), 1702327, 2017 | 308 | 2017 |
Nitrogen Vacancies on 2D Layered W2N3: A Stable and Efficient Active Site for Nitrogen Reduction Reaction H Jin, L Li, X Liu, C Tang, W Xu, S Chen, L Song, Y Zheng, SZ Qiao Advanced Materials 31 (32), 1902709, 2019 | 259 | 2019 |
A review of nanocarbons in energy electrocatalysis: Multifunctional substrates and highly active sites C Tang, MM Titirici, Q Zhang Journal of Energy Chemistry 26 (6), 1077-1093, 2017 | 225 | 2017 |
A porphyrin covalent organic framework cathode for flexible Zn–air batteries BQ Li, SY Zhang, B Wang, ZJ Xia, C Tang, Q Zhang Energy & Environmental Science 11 (7), 1723-1729, 2018 | 216 | 2018 |
Coordination tunes selectivity: two‐electron oxygen reduction on high‐loading molybdenum single‐atom catalysts C Tang, Y Jiao, B Shi, JN Liu, Z Xie, X Chen, Q Zhang, SZ Qiao Angewandte Chemie International Edition 59 (23), 9171-9176, 2020 | 206 | 2020 |
A nanosized CoNi hydroxide@ hydroxysulfide core–shell heterostructure for enhanced oxygen evolution B Wang, C Tang, HF Wang, X Chen, R Cao, Q Zhang Advanced Materials 31 (4), 1805658, 2019 | 194 | 2019 |
Atomic modulation and structure design of carbons for bifunctional electrocatalysis in metal–air batteries Y Huang, Y Wang, C Tang, J Wang, Q Zhang, Y Wang, J Zhang Advanced Materials 31 (13), 1803800, 2019 | 183 | 2019 |
3D mesoporous van der Waals heterostructures for trifunctional energy electrocatalysis C Tang, L Zhong, B Zhang, HF Wang, Q Zhang Advanced Materials 30 (5), 1705110, 2018 | 150 | 2018 |
Monolithic-structured ternary hydroxides as freestanding bifunctional electrocatalysts for overall water splitting X Zhu, C Tang, HF Wang, BQ Li, Q Zhang, C Li, C Yang, F Wei Journal of Materials Chemistry A 4 (19), 7245-7250, 2016 | 146 | 2016 |