MOF-derived electrocatalysts for oxygen reduction, oxygen evolution and hydrogen evolution reactions HF Wang, L Chen, H Pang, S Kaskel, Q Xu Chemical Society Reviews 49 (5), 1414-1448, 2020 | 1331 | 2020 |
Wang Y Wang Jia Z, Yi Q, Song L. The various components implied the diversified toll …, 2018 | 1291* | 2018 |
Transition‐metal (Fe, Co, Ni) based metal‐organic frameworks for electrochemical energy storage S Zheng, X Li, B Yan, Q Hu, Y Xu, X Xiao, H Xue, H Pang Advanced Energy Materials 7 (18), 1602733, 2017 | 836 | 2017 |
Transition metal sulfides based on graphene for electrochemical energy storage P Geng, S Zheng, H Tang, R Zhu, L Zhang, S Cao, H Xue, H Pang Advanced Energy Materials 8 (15), 1703259, 2018 | 774 | 2018 |
Synthesis of micro/nanoscaled metal–organic frameworks and their direct electrochemical applications X Xiao, L Zou, H Pang, Q Xu Chemical Society Reviews 49 (1), 301-331, 2020 | 762 | 2020 |
Metal–organic frameworks as a platform for clean energy applications X Li, X Yang, H Xue, H Pang, Q Xu EnergyChem 2 (2), 100027, 2020 | 700 | 2020 |
Flexible supercapacitors based on paper substrates: a new paradigm for low-cost energy storage YZ Zhang, Y Wang, T Cheng, WY Lai, H Pang, W Huang Chemical Society Reviews 44 (15), 5181-5199, 2015 | 636 | 2015 |
In situ growth of three‐dimensional MXene/metal–organic framework composites for high‐performance supercapacitors C Liu, Y Bai, W Li, F Yang, G Zhang, H Pang Angewandte Chemie International Edition 61 (11), e202116282, 2022 | 547 | 2022 |
Hierarchically nanostructured transition metal oxides for lithium‐ion batteries M Zheng, H Tang, L Li, Q Hu, L Zhang, H Xue, H Pang Advanced science 5 (3), 1700592, 2018 | 546 | 2018 |
Rechargeable zinc–air batteries: a promising way to green energy P Gu, M Zheng, Q Zhao, X Xiao, H Xue, H Pang Journal of Materials Chemistry A 5 (17), 7651-7666, 2017 | 545 | 2017 |
A highly alkaline-stable metal oxide@ metal–organic framework composite for high-performance electrochemical energy storage S Zheng, Q Li, H Xue, H Pang, Q Xu National science review 7 (2), 305-314, 2020 | 544 | 2020 |
Applications of metal–organic‐framework‐derived carbon materials W Yang, X Li, Y Li, R Zhu, H Pang Advanced materials 31 (6), 1804740, 2019 | 498 | 2019 |
Metal-organic frameworks for direct electrochemical applications Y Xu, Q Li, H Xue, H Pang Coordination Chemistry Reviews 376, 292-318, 2018 | 497 | 2018 |
Ultrathin nickel–cobalt phosphate 2D nanosheets for electrochemical energy storage under aqueous/solid‐state electrolyte B Li, P Gu, Y Feng, G Zhang, K Huang, H Xue, H Pang Advanced Functional Materials 27 (12), 1605784, 2017 | 490 | 2017 |
Facile synthesis of an accordion-like Ni-MOF superstructure for high-performance flexible supercapacitors Y Yan, P Gu, S Zheng, M Zheng, H Pang, H Xue Journal of Materials Chemistry A 4 (48), 19078-19085, 2016 | 482 | 2016 |
MoS2‐Based Nanocomposites for Electrochemical Energy Storage T Wang, S Chen, H Pang, H Xue, Y Yu Advanced science 4 (2), 1600289, 2017 | 466 | 2017 |
MXene‐copper/cobalt hybrids via lewis acidic molten salts etching for high performance symmetric supercapacitors Y Bai, C Liu, T Chen, W Li, S Zheng, Y Pi, Y Luo, H Pang Angewandte Chemie 133 (48), 25522-25526, 2021 | 459 | 2021 |
Transition metal oxides with one-dimensional/one-dimensional-analogue nanostructures for advanced supercapacitors G Zhang, X Xiao, B Li, P Gu, H Xue, H Pang Journal of Materials Chemistry A 5 (18), 8155-8186, 2017 | 445 | 2017 |
High energy-power Zn-ion hybrid supercapacitors enabled by layered B/N co-doped carbon cathode Y Lu, Z Li, Z Bai, H Mi, C Ji, H Pang, C Yu, J Qiu Nano Energy 66, 104132, 2019 | 442 | 2019 |
Nitrogen‐doped cobalt oxide nanostructures derived from cobalt–alanine complexes for high‐performance oxygen evolution reactions X Li, J Wei, Q Li, S Zheng, Y Xu, P Du, C Chen, J Zhao, H Xue, Q Xu, ... Advanced Functional Materials 28 (23), 1800886, 2018 | 442 | 2018 |