Single-atom catalysis using Pt/graphene achieved through atomic layer deposition S Sun, G Zhang, N Gauquelin, N Chen, J Zhou, S Yang, W Chen, X Meng, ... Scientific reports 3 (1), 1-9, 2013 | 987 | 2013 |
Emerging applications of atomic layer deposition for lithium‐ion battery studies X Meng, XQ Yang, X Sun Advanced Materials 24 (27), 3589-3615, 2012 | 604 | 2012 |
Tin oxide with controlled morphology and crystallinity by atomic layer deposition onto graphene nanosheets for enhanced lithium storage X Li, X Meng, J Liu, D Geng, Y Zhang, MN Banis, Y Li, J Yang, R Li, X Sun, ... Advanced Functional Materials 22 (8), 1647-1654, 2012 | 465 | 2012 |
Superior cycle stability of nitrogen-doped graphene nanosheets as anodes for lithium ion batteries X Li, D Geng, Y Zhang, X Meng, R Li, X Sun Electrochemistry Communications 13 (8), 822-825, 2011 | 400 | 2011 |
Methods for using atomic layer deposition to produce a film for solid state electrolytes and protective electrode coatings for lithium batteries JW Elam, X Meng US Patent 9,917,295, 2018 | 295 | 2018 |
An overview of molecular layer deposition for organic and organic–inorganic hybrid materials: mechanisms, growth characteristics, and promising applications X Meng Journal of Materials Chemistry A 5 (35), 18326-18378, 2017 | 265 | 2017 |
Significant impact on cathode performance of lithium-ion batteries by precisely controlled metal oxide nanocoatings via atomic layer deposition X Li, J Liu, X Meng, Y Tang, MN Banis, J Yang, Y Hu, R Li, M Cai, X Sun Journal of Power Sources 247, 57-69, 2014 | 264 | 2014 |
Atomic layer deposition of metal sulfide materials NP Dasgupta, X Meng, JW Elam, ABF Martinson Accounts of chemical research 48 (2), 341-348, 2015 | 238 | 2015 |
Ultrathin lithium-ion conducting coatings for increased interfacial stability in high voltage lithium-ion batteries JS Park, X Meng, JW Elam, S Hao, C Wolverton, C Kim, J Cabana Chemistry of Materials 26 (10), 3128-3134, 2014 | 231 | 2014 |
Understanding the high-electrocatalytic performance of two-dimensional MoS 2 nanosheets and their composite materials S Jayabal, G Saranya, J Wu, Y Liu, D Geng, X Meng Journal of Materials Chemistry A 5 (47), 24540-24563, 2017 | 230 | 2017 |
High concentration nitrogen doped carbon nanotube anodes with superior Li+ storage performance for lithium rechargeable battery application X Li, J Liu, Y Zhang, Y Li, H Liu, X Meng, J Yang, D Geng, D Wang, R Li, ... Journal of Power Sources 197, 238-245, 2012 | 183 | 2012 |
Atomic layer deposition for nanomaterial synthesis and functionalization in energy technology X Meng, X Wang, D Geng, C Ozgit-Akgun, N Schneider, JW Elam Materials Horizons 4 (2), 133-154, 2017 | 163 | 2017 |
Surface modification for suppressing interfacial parasitic reactions of a nickel-rich lithium-ion cathode H Gao, J Cai, GL Xu, L Li, Y Ren, X Meng, K Amine, Z Chen Chemistry of materials 31 (8), 2723-2730, 2019 | 138 | 2019 |
Atomic Layer Deposition of LixAlyS Solid‐State Electrolytes for Stabilizing Lithium‐Metal Anodes Y Cao, X Meng, JW Elam ChemElectroChem 3 (6), 858-863, 2016 | 137 | 2016 |
Atomic layer deposition of two-dimensional layered materials: processes, growth mechanisms, and characteristics J Cai, X Han, X Wang, X Meng Matter 2 (3), 587-630, 2020 | 135 | 2020 |
Vapor-Phase Atomic-Controllable Growth of Amorphous Li2S for High-Performance Lithium–Sulfur Batteries X Meng, DJ Comstock, TT Fister, JW Elam Acs Nano 8 (10), 10963-10972, 2014 | 131 | 2014 |
Controllable synthesis of graphene-based titanium dioxide nanocomposites by atomic layer deposition X Meng, D Geng, J Liu, R Li, X Sun Nanotechnology 22 (16), 165602, 2011 | 128 | 2011 |
Metallic 1T-MoS2 nanosheets and their composite materials: Preparation, properties and emerging applications S Jayabal, J Wu, J Chen, D Geng, X Meng Materials today energy 10, 264-279, 2018 | 121 | 2018 |
Gallium sulfide–single‐walled carbon nanotube composites: high‐performance anodes for lithium‐ion batteries X Meng, K He, D Su, X Zhang, C Sun, Y Ren, HH Wang, W Weng, ... Advanced Functional Materials 24 (34), 5435-5442, 2014 | 120 | 2014 |
Effect of interface modifications on voltage fade in 0.5 Li2MnO3· 0.5 LiNi0. 375Mn0. 375Co0. 25O2 cathode materials I Bloom, L Trahey, A Abouimrane, I Belharouak, X Zhang, Q Wu, W Lu, ... Journal of Power Sources 249, 509-514, 2014 | 117 | 2014 |