MoS2/Graphene Composite Anodes with Enhanced Performance for Sodium‐Ion Batteries: The Role of the Two‐Dimensional Heterointerface X Xie, Z Ao, D Su, J Zhang, G Wang Advanced Functional Materials 25 (9), 1393-1403, 2015 | 751 | 2015 |
Advances in lithium–sulfur batteries: from academic research to commercial viability Y Chen, T Wang, H Tian, D Su, Q Zhang, G Wang Advanced Materials 33 (29), 2003666, 2021 | 615 | 2021 |
High-Capacity Aqueous Potassium-Ion Batteries for Large-Scale Energy Storage. D Su, A McDonagh, SZ Qiao, G Wang Advanced Materials (Deerfield Beach, Fla.) 29 (1), 2016 | 587 | 2016 |
Highly Ordered Mesoporous MoS2 with Expanded Spacing of the (002) Crystal Plane for Ultrafast Lithium Ion Storage H Liu, D Su, R Zhou, B Sun, G Wang, SZ Qiao Advanced Energy Materials 2 (8), 970-975, 2012 | 507 | 2012 |
Ultrathin MoS2 Nanosheets as Anode Materials for Sodium‐Ion Batteries with Superior Performance D Su, S Dou, G Wang Advanced Energy Materials 5 (6), 1401205, 2015 | 414 | 2015 |
Promoting lithium polysulfide/sulfide redox kinetics by the catalyzing of zinc sulfide for high performance lithium-sulfur battery J Xu, W Zhang, H Fan, F Cheng, D Su, G Wang Nano Energy 51, 73-82, 2018 | 397 | 2018 |
SnO 2@ graphene nanocomposites as anode materials for Na-ion batteries with superior electrochemical performance D Su, HJ Ahn, G Wang Chemical communications 49 (30), 3131-3133, 2013 | 388 | 2013 |
Fabrication of N‐doped graphene–carbon nanotube hybrids from Prussian blue for lithium–sulfur batteries D Su, M Cortie, G Wang Advanced energy materials 7 (8), 1602014, 2017 | 376 | 2017 |
Single-Crystalline Bilayered V2O5 Nanobelts for High-Capacity Sodium-Ion Batteries D Su, G Wang ACS nano 7 (12), 11218-11226, 2013 | 360 | 2013 |
Anatase TiO2: Better Anode Material Than Amorphous and Rutile Phases of TiO2 for Na-Ion Batteries D Su, S Dou, G Wang Chemistry of Materials 27 (17), 6022-6029, 2015 | 320 | 2015 |
Na2Ti3O7@N‐Doped Carbon Hollow Spheres for Sodium‐Ion Batteries with Excellent Rate Performance F Xie, L Zhang, D Su, M Jaroniec, SZ Qiao Advanced Materials 29 (24), 1700989, 2017 | 313 | 2017 |
Graphene nanosheets as cathode catalysts for lithium-air batteries with an enhanced electrochemical performance B Sun, B Wang, D Su, L Xiao, H Ahn, G Wang Carbon 50 (2), 727-733, 2012 | 307 | 2012 |
Graphene-Co3O4 nanocomposite as electrocatalyst with high performance for oxygen evolution reaction Y Zhao, S Chen, B Sun, D Su, X Huang, H Liu, Y Yan, K Sun, G Wang Scientific reports 5 (1), 7629, 2015 | 306 | 2015 |
MOF-derived porous N–Co 3 O 4@ N–C nanododecahedra wrapped with reduced graphene oxide as a high capacity cathode for lithium–sulfur batteries J Xu, W Zhang, Y Chen, H Fan, D Su, G Wang Journal of Materials Chemistry A 6 (6), 2797-2807, 2018 | 296 | 2018 |
Bismuth: A new anode for the Na-ion battery D Su, S Dou, G Wang Nano Energy 12, 88-95, 2015 | 283 | 2015 |
SnO2@ MWCNT nanocomposite as a high capacity anode material for sodium-ion batteries Y Wang, D Su, C Wang, G Wang Electrochemistry communications 29, 8-11, 2013 | 283 | 2013 |
Immobilizing polysulfides with MXene-functionalized separators for stable lithium–sulfur batteries J Song, D Su, X Xie, X Guo, W Bao, G Shao, G Wang ACS applied materials & interfaces 8 (43), 29427-29433, 2016 | 275 | 2016 |
The 2021 battery technology roadmap J Ma, Y Li, NS Grundish, JB Goodenough, Y Chen, L Guo, Z Peng, X Qi, ... Journal of Physics D: Applied Physics 54 (18), 183001, 2021 | 273 | 2021 |
Electrode materials for sodium-ion batteries: considerations on crystal structures and sodium storage mechanisms T Wang, D Su, D Shanmukaraj, T Rojo, M Armand, G Wang Electrochemical Energy Reviews 1, 200-237, 2018 | 267 | 2018 |
WS 2@ graphene nanocomposites as anode materials for Na-ion batteries with enhanced electrochemical performances D Su, S Dou, G Wang Chemical Communications 50 (32), 4192-4195, 2014 | 265 | 2014 |