|
1) Electrolyte-Mediated Stabilization of High Capacity Micro-Sized Antimony Anodes for Potassium-Ion Batteries - Advanced Materials - 2021 - 2005993
2) Unraveling New Role of Ethylene Carbonate Solvation Shell in Rechargeable Metal Ion Batteries - ACS Energy Letters - 2020 - 6, 69-78
3) Model-based Design of Stable Electrolytes for Potassium Ion Batteries - ACS Energy Letters - 2020 - 5, 3124-3131
4) Model-based Design of Graphite Compatible Electrolytes in Potassium Ion Batteries - ACS Energy Letters - 2020 - 5, 2651-2661
5) Additives Engineered Nonflammable Electrolyte for Safer Potassium Ion Battery - Advanced Functional Materials - 2020 - 30, 2001934
6) Unraveling Metal Oxide Role in Exfoliating Graphite: New Strategy to Construct High‐Performance Graphene‐Modified SiOx ‐Based Anode for Lithium‐Ion Batteries - Advanced Functional Materials - 2020 - 30, 1910657
7) Engineering Sodium-Ion Solvation Structure to Stabilize Sodium Anodes: Universal Strategy for Fast-Charging and Safer Sodium-Ion Batteries - Nano Letters - 2020 - 20, 3247-3254
8) An Empirical Model for the Design of Batteries with High Energy Density - ACS Energy Letters - 2020 - 5, 807-816
9) Electrolyte Engineering Enables High Stability and Capacity Alloying Anodes for Sodium and Potassium Ion Batteries - ACS Energy Letters - 2020 - 5, 766-776
10) Understanding Ostwald Ripening and Surface Charging Effects in Solvothermally‐Prepared Metal Oxide–Carbon Anodes for High Performance Rechargeable Batteries - Advanced Energy Materials - 2019 - 9, 1902194
11) Molecular-Scale Interfacial Model for Predicting Electrode Performance in Rechargeable Batteries - ACS Energy Letters - 2019 - 4, 1584-1593
12) New Insight on the Role of Electrolyte Additives in Rechargeable Lithium Ion Batteries - ACS Energy Letters - 2019 - 4, 2613-2622
13) New Organic Complex for Lithium Layered Oxide Modification: Ultrathin Coating, High-Voltage, and Safety Performances - ACS Energy Letters - 2019 - 4, 656-665
14) An Exploration of New Energy Storage System: High Energy Density, High Safety, and Fast Charging Lithium Ion Battery - Advanced Functional Materials - 2018 - 29, 1805978
15) Recognizing the mechanism of sulfurized polyacrylonitrile cathode materials for Li–S batteries and beyond in Al–S batteries - ACS Energy Letters - 2018 - 3, 2899-2907
16) Phase inversion strategy to flexible freestanding electrode: critical coupling of binders and electrolytes for high performance Li–S battery - Advanced Functional Materials - 2018 - 28, 1802244
17) New insights on graphite anode stability in rechargeable batteries: Li ion coordination structures prevail over solid electrolyte interphases - ACS Energy Letters - 2018 - 3, 335–340
18) Metal-Organic Framework-Based Separators for Enhancing Li-S Battery Stability: Mechanism of Mitigating Polysulfide Diffusion - ACS Energy Letters - 2017 - 2, 2362-2367
19) Multilayer Approach for Advanced Hybrid Lithium Battery - ACS Nano - 2016 - 10, 6037-6044
20) Redox Species-Based Electrolytes for Advanced Rechargeable Lithium Ion Batteries - ACS Energy Letters - 2016 - 1, 529-534
|
