| Metal–organic frameworks and their derived nanostructures for electrochemical energy storage and conversion W Xia, A Mahmood, R Zou, Q Xu Energy & Environmental Science 8 (7), 1837-1866, 2015 | 1667 | 2015 |
| Metal-organic frameworks for energy applications H Wang, QL Zhu, R Zou, Q Xu Chem 2 (1), 52-80, 2017 | 1107 | 2017 |
| Earth‐abundant nanomaterials for oxygen reduction W Xia, A Mahmood, Z Liang, R Zou, S Guo Angewandte Chemie International Edition 55 (8), 2650-2676, 2016 | 1074 | 2016 |
| Covalent Organic Frameworks for CO2 Capture Y Zeng, R Zou, Y Zhao Advanced Materials 28 (15), 2855-2873, 2016 | 996 | 2016 |
| Metal–organic framework-based catalysts with single metal sites YS Wei, M Zhang, R Zou, Q Xu Chemical Reviews 120 (21), 12089-12174, 2020 | 871 | 2020 |
| Pristine metal–organic frameworks and their composites for energy storage and conversion Z Liang, C Qu, W Guo, R Zou, Q Xu Advanced Materials 30 (37), 1702891, 2018 | 755 | 2018 |
| Heterogeneous catalysis in zeolites, mesoporous silica, and metal–organic frameworks J Liang, Z Liang, R Zou, Y Zhao Advanced Materials 29 (30), 1701139, 2017 | 700 | 2017 |
| Electrochemical nitrogen fixation and utilization: theories, advanced catalyst materials and system design W Guo, K Zhang, Z Liang, R Zou, Q Xu Chemical Society Reviews 48 (24), 5658-5716, 2019 | 654 | 2019 |
| Advanced transition metal‐based OER electrocatalysts: current status, opportunities, and challenges K Zhang, R Zou Small 17 (37), 2100129, 2021 | 642 | 2021 |
| Metal‐organic framework‐based nanomaterials for electrocatalysis A Mahmood, W Guo, H Tabassum, R Zou Advanced Energy Materials 6 (17), 1600423, 2016 | 634 | 2016 |
| Preparation, adsorption properties, and catalytic activity of 3D porous metal–organic frameworks composed of cubic building blocks and alkali‐metal ions RQ Zou, H Sakurai, Q Xu Angewandte Chemie International Edition 45 (16), 2542-2546, 2006 | 622 | 2006 |
| A metal–organic framework route to in situ encapsulation of Co@ Co 3 O 4@ C core@ bishell nanoparticles into a highly ordered porous carbon matrix for oxygen reduction W Xia, R Zou, L An, D Xia, S Guo Energy & Environmental Science 8 (2), 568-576, 2015 | 597 | 2015 |
| Metal-organic frameworks for batteries R Zhao, Z Liang, R Zou, Q Xu Joule 2 (11), 2235-2259, 2018 | 556 | 2018 |
| A Triazole-Containing Metal–Organic Framework as a Highly Effective and Substrate Size-Dependent Catalyst for CO2 Conversion PZ Li, XJ Wang, J Liu, JS Lim, R Zou, Y Zhao Journal of the American Chemical Society 138 (7), 2142-2145, 2016 | 544 | 2016 |
| Nanoconfined phase change materials for thermal energy applications W Aftab, X Huang, W Wu, Z Liang, A Mahmood, R Zou Energy & Environmental Science 11 (6), 1392-1424, 2018 | 542 | 2018 |
| Well-defined carbon polyhedrons prepared from nano metal–organic frameworks for oxygen reduction W Xia, J Zhu, W Guo, L An, D Xia, R Zou Journal of Materials Chemistry A 2 (30), 11606-11613, 2014 | 524 | 2014 |
| Metal-organic framework-derived materials for electrochemical energy applications Z Liang, R Zhao, T Qiu, R Zou, Q Xu EnergyChem 1 (1), 100001, 2019 | 501 | 2019 |
| Atomically dispersed metal sites in MOF‐based materials for electrocatalytic and photocatalytic energy conversion Z Liang, C Qu, D Xia, R Zou, Q Xu Angewandte Chemie International Edition 57 (31), 9604-9633, 2018 | 490 | 2018 |
| Metal‐organic framework‐derived honeycomb‐like open porous nanostructures as precious‐metal‐free catalysts for highly efficient oxygen electroreduction QL Zhu, W Xia, T Akita, R Zou, Q Xu Advanced materials, 6391-6398, 2016 | 457 | 2016 |
| Designing advanced catalysts for energy conversion based on urea oxidation reaction B Zhu, Z Liang, R Zou Small 16 (7), 1906133, 2020 | 442 | 2020 |
