| Experimentally unveiling the origin of tunable selectivity for CO2 hydrogenation over Ni-based catalysts K Feng, J Tian, M Guo, Y Wang, S Wang, Z Wu, J Zhang, L He, B Yan Applied Catalysis B: Environmental 292, 120191, 2021 | 87 | 2021 |
| Unveiling the origin of enhanced catalytic performance of NiCu alloy for semi-hydrogenation of acetylene Z Li, J Zhang, J Tian, K Feng, Z Jiang, B Yan Chemical Engineering Journal 450, 138244, 2022 | 26 | 2022 |
| Dual Functionalized Interstitial N Atoms in Co3Mo3N Enabling CO2 Activation K Feng, J Tian, J Zhang, Z Li, Y Chen, KH Luo, B Yang, B Yan ACS Catalysis 12, 4696-4706, 2022 | 21 | 2022 |
| Atomically Dispersed Zn‐Stabilized Niδ+ Enabling Tunable Selectivity for CO2 Hydrogenation Y Wang, K Feng, J Tian, J Zhang, B Zhao, KH Luo, B Yan ChemSusChem, e202102439, 2022 | 16 | 2022 |
| Cu/LaFeO3 as an efficient and stable catalyst for CO2 reduction: Exploring synergistic effect between Cu and LaFeO3 J Zhang, Y Wang, J Tian, B Yan AIChE Journal, e17640, 0 | 14 | |
| A bimetallic nanocatalyst for light-free oxygen sensitization therapy X Guo, H Liao, J Tian, C Yang, F Xia, W Liang, N Wang, P Li, B Zhang, ... Cell Reports Physical Science 2 (8), 100538, 2021 | 3 | 2021 |
| Reactive separation of β-bromoethylbenzene from α-β-bromoethylbenzene mixtures: a Zn 2+-mediated radical polymerization mechanism T Deng, J Tian, J Zhu, B Yan Chemical Communications, 2022 | | 2022 |
