| Direct, nonoxidative conversion of methane to ethylene, aromatics, and hydrogen X Guo, G Fang, G Li, H Ma, H Fan, L Yu, C Ma, X Wu, D Deng, M Wei, ... science 344 (6184), 616-619, 2014 | 1384 | 2014 |
| Iron encapsulated within pod‐like carbon nanotubes for oxygen reduction reaction D Deng, L Yu, X Chen, G Wang, L Jin, X Pan, J Deng, G Sun, X Bao Angewandte Chemie International Edition 52 (1), 371-375, 2013 | 1345 | 2013 |
| Selective conversion of syngas to light olefins F Jiao, J Li, X Pan, J Xiao, H Li, H Ma, M Wei, Y Pan, Z Zhou, M Li, S Miao, ... Science 351 (6277), 1065-1068, 2016 | 1279 | 2016 |
| Direct conversion of methane to value-added chemicals over heterogeneous catalysts: challenges and prospects P Schwach, X Pan, X Bao Chemical reviews 117 (13), 8497-8520, 2017 | 1134 | 2017 |
| Toward N-doped graphene via solvothermal synthesis D Deng, X Pan, L Yu, Y Cui, Y Jiang, J Qi, WX Li, Q Fu, X Ma, Q Xue, ... Chemistry of Materials 23 (5), 1188-1193, 2011 | 1119 | 2011 |
| Enhanced ethanol production inside carbon-nanotube reactors containing catalytic particles X Pan, Z Fan, W Chen, Y Ding, H Luo, X Bao Nature materials 6 (7), 507-511, 2007 | 1079 | 2007 |
| Effect of confinement in carbon nanotubes on the activity of Fischer− Tropsch iron catalyst W Chen, Z Fan, X Pan, X Bao Journal of the American Chemical Society 130 (29), 9414-9419, 2008 | 827 | 2008 |
| A single iron site confined in a graphene matrix for the catalytic oxidation of benzene at room temperature D Deng, X Chen, L Yu, X Wu, Q Liu, Y Liu, H Yang, H Tian, Y Hu, P Du, ... Science advances 1 (11), e1500462, 2015 | 805 | 2015 |
| The effects of confinement inside carbon nanotubes on catalysis X Pan, X Bao Accounts of chemical research 44 (8), 553-562, 2011 | 671 | 2011 |
| Oxygen reduction reaction mechanism on nitrogen-doped graphene: A density functional theory study L Yu, X Pan, X Cao, P Hu, X Bao Journal of Catalysis 282 (1), 183-190, 2011 | 631 | 2011 |
| Tuning of redox properties of iron and iron oxides via encapsulation within carbon nanotubes W Chen, X Pan, X Bao Journal of the American Chemical Society 129 (23), 7421-7426, 2007 | 361 | 2007 |
| Understanding nano effects in catalysis F Yang, D Deng, X Pan, Q Fu, X Bao National Science Review 2 (2), 183-201, 2015 | 302 | 2015 |
| Facile autoreduction of iron oxide/carbon nanotube encapsulates W Chen, X Pan, MG Willinger, DS Su, X Bao Journal of the American Chemical Society 128 (10), 3136-3137, 2006 | 296 | 2006 |
| Toward fundamentals of confined catalysis in carbon nanotubes J Xiao, X Pan, S Guo, P Ren, X Bao Journal of the American Chemical Society 137 (1), 477-482, 2015 | 245 | 2015 |
| Size effect of graphene on electrocatalytic activation of oxygen D Deng, L Yu, X Pan, S Wang, X Chen, P Hu, L Sun, X Bao Chemical communications 47 (36), 10016-10018, 2011 | 241 | 2011 |
| Silicon carbide-derived carbon nanocomposite as a substitute for mercury in the catalytic hydrochlorination of acetylene X Li, X Pan, L Yu, P Ren, X Wu, L Sun, F Jiao, X Bao Nature communications 5 (1), 3688, 2014 | 225 | 2014 |
| Oxide–zeolite-based composite catalyst concept that enables syngas chemistry beyond Fischer–Tropsch synthesis X Pan, F Jiao, D Miao, X Bao Chemical Reviews 121 (11), 6588-6609, 2021 | 217 | 2021 |
| Shape‐selective zeolites promote ethylene formation from syngas via a ketene intermediate F Jiao, X Pan, K Gong, Y Chen, G Li, X Bao Angewandte Chemie International Edition 57 (17), 4692-4696, 2018 | 214 | 2018 |
| Role of manganese oxide in syngas conversion to light olefins Y Zhu, X Pan, F Jiao, J Li, J Yang, M Ding, Y Han, Z Liu, X Bao ACS catalysis 7 (4), 2800-2804, 2017 | 211 | 2017 |
| Reactions over catalysts confined in carbon nanotubes X Pan, X Bao Chemical communications, 6271-6281, 2008 | 199 | 2008 |
