| Ambient ammonia synthesis via palladium-catalyzed electrohydrogenation of dinitrogen at low overpotential J Wang, L Yu, L Hu, G Chen, H Xin, X Feng Nature Communications 9 (1), 1795, 2018 | 761 | 2018 |
| Grain-Boundary-Dependent CO2 Electroreduction Activity X Feng, K Jiang, S Fan, MW Kanan Journal of the American Chemical Society 137 (14), 4606-4609, 2015 | 681 | 2015 |
| Superlubric sliding of graphene nanoflakes on graphene X Feng, S Kwon, JY Park, M Salmeron ACS Nano 7 (2), 1718-1724, 2013 | 462 | 2013 |
| A direct grain-boundary-activity correlation for CO electroreduction on Cu nanoparticles X Feng, K Jiang, S Fan, MW Kanan ACS Central Science 2 (3), 169-174, 2016 | 454 | 2016 |
| Enhancing carbon dioxide gas-diffusion electrolysis by creating a hydrophobic catalyst microenvironment Z Xing, L Hu, DS Ripatti, X Hu, X Feng Nature Communications 12 (1), 136, 2021 | 421 | 2021 |
| Controlled fabrication of high-quality carbon nanoscrolls from monolayer graphene X Xie, L Ju, X Feng, Y Sun, R Zhou, K Liu, S Fan, Q Li, K Jiang Nano Letters 9 (7), 2565-2570, 2009 | 416 | 2009 |
| Controlled growth of super-aligned carbon nanotube arrays for spinning continuous unidirectional sheets with tunable physical properties K Liu, Y Sun, L Chen, C Feng, X Feng, K Jiang, Y Zhao, S Fan Nano Letters 8 (2), 700-705, 2008 | 391 | 2008 |
| Ambient electrochemical ammonia synthesis with high selectivity on Fe/Fe oxide catalyst L Hu, A Khaniya, J Wang, G Chen, WE Kaden, X Feng ACS Catalysis 8 (10), 9312-9319, 2018 | 280 | 2018 |
| Water splits epitaxial graphene and intercalates X Feng, S Maier, M Salmeron Journal of the American Chemical Society 134 (12), 5662-5668, 2012 | 217 | 2012 |
| Understanding the electrocatalytic interface for ambient ammonia synthesis L Hu, Z Xing, X Feng ACS Energy Letters 5 (2), 430-436, 2020 | 160 | 2020 |
| Tuning the Microenvironment in Gas-Diffusion Electrodes Enables High-Rate CO2 Electrolysis to Formate Z Xing, X Hu, X Feng ACS Energy Letters 6 (5), 1694-1702, 2021 | 130 | 2021 |
| Comparative studies of multiwalled carbon nanotube sheets before and after shrinking Y Wei, K Jiang, X Feng, P Liu, L Liu, S Fan Physical Review B—Condensed Matter and Materials Physics 76 (4), 045423, 2007 | 128 | 2007 |
| In Situ TEM observation of the gasification and growth of carbon nanotubes using iron catalysts X Feng, SW Chee, R Sharma, K Liu, X Xie, Q Li, S Fan, K Jiang Nano Research 4, 767-779, 2011 | 74 | 2011 |
| Thermal analysis study of the growth kinetics of carbon nanotubes and epitaxial graphene layers on them X Feng, K Liu, X Xie, R Zhou, L Zhang, Q Li, S Fan, K Jiang The Journal of Physical Chemistry C 113 (22), 9623-9631, 2009 | 42 | 2009 |
| Barium-functionalized multiwalled carbon nanotube yarns as low-work-function thermionic cathodes L Xiao, P Liu, L Liu, K Jiang, X Feng, Y Wei, L Qian, S Fan, T Zhang Applied Physics Letters 92 (15), 2008 | 39 | 2008 |
| Elucidating the intrinsic activity and selectivity of Cu for nitrate electroreduction Z Ren, K Shi, X Feng ACS Energy Letters 8 (9), 3658-3665, 2023 | 38 | 2023 |
| A broader‐scope analysis of the catalytic reduction of nitrophenols and azo dyes with noble metal nanoparticles LR Shultz, L Hu, K Preradovic, MJ Beazley, X Feng, T Jurca ChemCatChem 11 (11), 2590-2595, 2019 | 37 | 2019 |
| Beyond catalytic materials: Controlling local gas/liquid environment in the catalyst layer for CO2 electrolysis Z Xing, K Shi, X Hu, X Feng Journal of Energy Chemistry 66, 45-51, 2022 | 28 | 2022 |
| Molecular catalysis at polarized interfaces created by ferroelectric BaTiO3 ES Beh, SA Basun, X Feng, IU Idehenre, DR Evans, MW Kanan Chemical Science 8 (4), 2790-2794, 2017 | 27 | 2017 |
| A bifunctional catalyst for efficient dehydrogenation and electro-oxidation of hydrazine J Wang, A Khaniya, L Hu, MJ Beazley, WE Kaden, X Feng Journal of Materials Chemistry A 6 (37), 18050-18056, 2018 | 26 | 2018 |
Kaili JiangProfessor of Physics, Tsinghua UniversityVerified email at tsinghua.edu.cn
