| A high‐efficiency sulfur/carbon composite based on 3D graphene nanosheet@ carbon nanotube matrix as cathode for lithium–sulfur battery Z Zhang, LL Kong, S Liu, GR Li, XP Gao Advanced Energy Materials 7 (11), 1602543, 2017 | 497 | 2017 |
| Aluminum storage behavior of anatase TiO 2 nanotube arrays in aqueous solution for aluminum ion batteries S Liu, JJ Hu, NF Yan, GL Pan, GR Li, XP Gao Energy & Environmental Science 5 (12), 9743-9746, 2012 | 435 | 2012 |
| NiCo2O4 Nanofibers as Carbon‐Free Sulfur Immobilizer to Fabricate Sulfur‐Based Composite with High Volumetric Capacity for Lithium–Sulfur Battery YT Liu, DD Han, L Wang, GR Li, S Liu, XP Gao Advanced Energy Materials 9 (11), 1803477, 2019 | 341 | 2019 |
| Strategy of enhancing the volumetric energy density for lithium–sulfur batteries YT Liu, S Liu, GR Li, XP Gao Advanced Materials 33 (8), 2003955, 2021 | 298 | 2021 |
| Conductive CoOOH as carbon‐free sulfur immobilizer to fabricate sulfur‐based composite for lithium–sulfur battery ZY Wang, L Wang, S Liu, GR Li, XP Gao Advanced Functional Materials 29 (23), 1901051, 2019 | 240 | 2019 |
| Lithium–magnesium alloy as a stable anode for lithium–sulfur battery LL Kong, L Wang, ZC Ni, S Liu, GR Li, XP Gao Advanced Functional Materials 29 (13), 1808756, 2019 | 211 | 2019 |
| Lanthanum nitrate as electrolyte additive to stabilize the surface morphology of lithium anode for lithium–sulfur battery S Liu, GR Li, XP Gao ACS applied materials & interfaces 8 (12), 7783-7789, 2016 | 169 | 2016 |
| High volumetric energy density sulfur cathode with heavy and catalytic metal oxide host for lithium–sulfur battery YT Liu, S Liu, GR Li, TY Yan, XP Gao Advanced Science 7 (12), 1903693, 2020 | 163 | 2020 |
| Free-standing porous carbon nanofiber/carbon nanotube film as sulfur immobilizer with high areal capacity for lithium–sulfur battery YZ Zhang, Z Zhang, S Liu, GR Li, XP Gao ACS applied materials & interfaces 10 (10), 8749-8757, 2018 | 139 | 2018 |
| Na-Doped LiNi0.8Co0.15Al0.05O2 with Excellent Stability of Both Capacity and Potential as Cathode Materials for Li-Ion Batteries YY Wang, YY Sun, S Liu, GR Li, XP Gao ACS Applied Energy Materials 1 (8), 3881-3889, 2018 | 126 | 2018 |
| A sustainable multipurpose separator directed against the shuttle effect of polysulfides for high‐performance lithium–sulfur batteries W Wang, K Xi, B Li, H Li, S Liu, J Wang, H Zhao, H Li, AM Abdelkader, ... Advanced Energy Materials 12 (19), 2200160, 2022 | 121 | 2022 |
| High‐entropy spinel oxide nanofibers as catalytic sulfur hosts promise the high gravimetric and volumetric capacities for lithium–sulfur batteries L Tian, Z Zhang, S Liu, G Li, X Gao Energy & Environmental Materials 5 (2), 645-654, 2022 | 112 | 2022 |
| Quantitatively regulating defects of 2D tungsten selenide to enhance catalytic ability for polysulfide conversion in a lithium sulfur battery HJ Li, K Xi, W Wang, S Liu, GR Li, XP Gao Energy Storage Materials 45, 1229-1237, 2022 | 109 | 2022 |
| Sulfur/nickel ferrite composite as cathode with high-volumetric-capacity for lithium-sulfur battery Z Zhang, DH Wu, Z Zhou, GR Li, S Liu, XP Gao Science China Materials 62 (1), 74-86, 2018 | 102 | 2018 |
| To effectively drive the conversion of sulfur with electroactive niobium tungsten oxide microspheres for lithium− sulfur battery L Wang, ZY Wang, JF Wu, GR Li, S Liu, XP Gao Nano Energy 77, 105173, 2020 | 93 | 2020 |
| Porous carbon paper as interlayer to stabilize the lithium anode for lithium–sulfur battery LL Kong, Z Zhang, YZ Zhang, S Liu, GR Li, XP Gao ACS Applied Materials & Interfaces 8 (46), 31684-31694, 2016 | 93 | 2016 |
| High-entropy perovskite oxide nanofibers as efficient bidirectional electrocatalyst of liquid-solid conversion processes in lithium-sulfur batteries L Tian, Z Zhang, S Liu, G Li, X Gao Nano Energy 106, 108037, 2023 | 88 | 2023 |
| Hollow molybdate microspheres as catalytic hosts for enhancing the electrochemical performance of sulfur cathode under high sulfur loading and lean electrolyte L Wang, GR Li, S Liu, XP Gao Advanced Functional Materials 31 (18), 2010693, 2021 | 87 | 2021 |
| Lithiophilic gel polymer electrolyte to stabilize the lithium anode for a quasi-solid-state lithium–sulfur battery DD Han, S Liu, YT Liu, Z Zhang, GR Li, XP Gao Journal of Materials Chemistry A 6 (38), 18627-18634, 2018 | 83 | 2018 |
| High‐Entropy Alloys to Activate the Sulfur Cathode for Lithium–Sulfur Batteries Z Wang, H Ge, S Liu, G Li, X Gao Energy & Environmental Materials 6 (3), e12358, 2023 | 79 | 2023 |
