20 results on '"Ji, Tongtai"'
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2. Detection of a Cobalt-Containing Interphase at the Li6PS5Cl-NMC111 Interface by In Situ μXANES and EIS
3. Highly Ionic Conductive, Stretchable, and Tough Ionogel for Flexible Solid‐State Supercapacitor
4. Enhancing Lithium Stripping Efficiency in Anode-Free Solid-State Batteries through Self-Regulated Internal Pressure
5. Understanding Electrochemical Reaction Mechanisms of Sulfur in All‐Solid‐State Batteries through Operando and Theoretical Studies**
6. Understanding Electrochemical Reaction Mechanisms of Sulfur in All‐Solid‐State Batteries through Operando Raman and Ex‐Situ XAS
7. Designing Low Tortuosity Electrodes through Pattern Optimization for Fast‐Charging
8. Unveiling the Mechanical and Electrochemical Evolution of Nanosilicon Composite Anodes in Sulfide‐Based All‐Solid‐State Batteries
9. Manufacturing Water‐Based Low‐Tortuosity Electrodes for Fast‐Charge through Pattern Integrated Stamping
10. Nondestructively Visualizing and Understanding "Soft Short" and Li Creeping in All-solid-state Lithium-Metal Batteries
11. Unveiling the Mechanical and Electrochemical Evolution of Nano Silicon Composite Anodes in Sulfide based All-solid-state Batteries
12. High Ion Conductive and Selective Membrane Achieved through Dual Ion Conducting Mechanisms
13. Understanding Mechanisms of All-solid-state Lithium-Sulfur Batteries through Operando Raman and Ex-situ XAS Studying
14. Molecular Engineering of Biorefining Lignin Waste for Solid-State Electrolyte
15. All‐Solid‐State Li–S Batteries Enhanced by Interface Stabilization and Reaction Kinetics Promotion through 2D Transition Metal Sulfides
16. Large‐Scale Manufacturing of Pattern‐Integrated Paper Li‐Ion Microbatteries through Roll‐to‐Roll Flexographic Printing
17. Li Dynamics in Mixed Ionic-Electronic Conducting Interlayer of All-Solid-State Li-metal Batteries.
18. Nondestructively Visualizing and Understanding the Mechano‐Electro‐chemical Origins of "Soft Short" and "Creeping" in All‐Solid‐State Batteries.
19. In operandoneutron imaging characterizations of all-solid-state batteries
20. Large Scalable High Ion Conductive and Selective Double Layer Membrane Achieved through Dual Ion Conducting Mechanisms.
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