| Single‐atom catalysts for electrocatalytic applications Q Zhang, J Guan Advanced Functional Materials 30 (31), 2000768, 2020 | 659 | 2020 |
| Water oxidation on a mononuclear manganese heterogeneous catalyst J Guan, Z Duan, F Zhang, SD Kelly, R Si, M Dupuis, Q Huang, JQ Chen, ... Nature Catalysis 1 (11), 870-877, 2018 | 296 | 2018 |
| Applications of magnetic nanomaterials in heterogeneous catalysis Q Zhang, X Yang, J Guan ACS Applied Nano Materials 2 (8), 4681-4697, 2019 | 249 | 2019 |
| Applications of metal–organic framework-derived materials in fuel cells and metal-air batteries X Wen, Q Zhang, J Guan Coordination Chemistry Reviews 409, 213214, 2020 | 221 | 2020 |
| Optimizing the electrocatalytic selectivity of carbon dioxide reduction reaction by regulating the electronic structure of single‐atom M‐N‐C materials T Tang, Z Wang, J Guan Advanced Functional Materials 32 (19), 2111504, 2022 | 205 | 2022 |
| 2D MOFs and their derivatives for electrocatalytic applications: Recent advances and new challenges L Xiao, Z Wang, J Guan Coordination Chemistry Reviews 472, 214777, 2022 | 196 | 2022 |
| Strategies to improve electrocatalytic and photocatalytic performance of two-dimensional materials for hydrogen evolution reaction S Li, J Sun, J Guan Chinese Journal of Catalysis 42 (4), 511-556, 2021 | 172 | 2021 |
| Research on Preparation, Structure and Properties of TiO2/Polythiourethane Hybrid Optical Films with High Refractive Index C Lü, Z Cui, C Guan, J Guan, B Yang, J Shen Macromolecular materials and engineering 288 (9), 717-723, 2003 | 163 | 2003 |
| Applications of single-atom catalysts Q Zhang, J Guan Nano Research 15 (1), 38-70, 2022 | 145 | 2022 |
| A review of defect engineering in two-dimensional materials for electrocatalytic hydrogen evolution reaction T Tang, Z Wang, J Guan Chinese Journal of Catalysis 43 (3), 636-678, 2022 | 144 | 2022 |
| Atomically dispersed manganese-based catalysts for efficient catalysis of oxygen reduction reaction L Bai, Z Duan, X Wen, R Si, J Guan Applied Catalysis B: Environmental 257, 117930, 2019 | 142 | 2019 |
| Recent progress on MOF-derived electrocatalysts for hydrogen evolution reaction X Wen, J Guan Applied Materials Today 16, 146-168, 2019 | 132 | 2019 |
| Core–shell structured Fe 3 O 4@ SiO 2 supported cobalt (ii) or copper (ii) acetylacetonate complexes: magnetically recoverable nanocatalysts for aerobic epoxidation of styrene J Sun, G Yu, L Liu, Z Li, Q Kan, Q Huo, J Guan Catalysis Science & Technology 4 (5), 1246-1252, 2014 | 132 | 2014 |
| Heterogenization of functionalized Cu (II) and VO (IV) Schiff base complexes by direct immobilization onto amino-modified SBA-15: Styrene oxidation catalysts with enhanced … Y Yang, Y Zhang, S Hao, J Guan, H Ding, F Shang, P Qiu, Q Kan Applied Catalysis A: General 381 (1-2), 274-281, 2010 | 130 | 2010 |
| Highly dispersed ruthenium-based multifunctional electrocatalyst L Bai, Z Duan, X Wen, R Si, Q Zhang, J Guan ACS Catalysis 9 (11), 9897-9904, 2019 | 128 | 2019 |
| Immobilized Cu (II) and Co (II) salen complexes on graphene oxide and their catalytic activity for aerobic epoxidation of styrene Z Li, S Wu, H Ding, D Zheng, J Hu, X Wang, Q Huo, J Guan, Q Kan New Journal of Chemistry 37 (5), 1561-1568, 2013 | 121 | 2013 |
| Immobilization of transition metal (Fe 2+, Co 2+, Vo 2+ or Cu 2+) schiff base complexes onto graphene oxide as efficient and recyclable catalysts for epoxidation of styrene H Su, Z Li, Q Huo, J Guan, Q Kan Rsc Advances 4 (20), 9990-9996, 2014 | 118 | 2014 |
| Highly efficient single atom cobalt catalyst for selective oxidation of alcohols M Li, S Wu, X Yang, J Hu, L Peng, L Bai, Q Huo, J Guan Applied Catalysis A: General 543, 61-66, 2017 | 111 | 2017 |
| MXenes for electrocatalysis applications: Modification and hybridization X Bai, J Guan Chinese Journal of Catalysis 43 (8), 2057-2090, 2022 | 109 | 2022 |
| Recent progress and prospect of carbon-free single-site catalysts for the hydrogen and oxygen evolution reactions J Guan, X Bai, T Tang Nano Research 15 (2), 818-837, 2022 | 109 | 2022 |
