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2 | 2D-2D heterostructure of ionic liquid-exfoliated MoS2/MXene as lithium polysulfide barrier for Li-S batteries. 2023;636:528 doi: 10.1016/j.jcis.2023.01.031 |
3 | Electrode Interface Engineering in Lithium–Sulfur Batteries Enabled by a Trifluoroacetamide-Based Electrolyte. 2022;14:31814 doi: 10.1021/acsami.2c04397 |
4 | Nickel-cobalt Cyclo-tetraphosphate decorated hollow carbon nanocages as effective polysulfide promoters for stable Lithium-Sulfur batteries. 2023;451:138677 doi: 10.1016/j.cej.2022.138677 |
5 | Melamine-Sacrificed Pyrolytic Synthesis of Spiderweb-like Nanocages Encapsulated with Catalytic Co Atoms as Cathode for Advanced Li-S Batteries. 2022;8:161 doi: 10.3390/batteries8100161 |
6 | Enhanced cycling stability and rate capability of a graphene-supported commercialized Vat Blue 4 anode for advanced Li-ion batteries. 2022;13:11883 doi: 10.1039/D2SC03980J |
7 | Theoretical kinetic quantitative calculation predicted the expedited polysulfides degradation. 2022; doi: 10.1007/s12274-022-5061-4 |
8 | Targeted Catalysis of the Sulfur Evolution Reaction for High‐Performance Lithium‐Sulfur Batteries. 2022;12:2202232 doi: 10.1002/aenm.202202232 |
9 | Preparation of Ti3C2Tx quantum dots/activated semi-coke composite and its electrocatalytic performance. 2022;322:124259 doi: 10.1016/j.fuel.2022.124259 |
10 | A Separator Modified with Rutile Titania and Three‐Dimensional Interconnected Graphene‐Like Carbon for Advanced Li−S Batteries. 2022;9: doi: 10.1002/celc.202200301 |