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Abstract

  1. How to Detect or Simulate the Dynamic Structural Changes of Complex Electrochemical Interfaces under In-Situ/Operando Conditions at the Microscale, and Establish Their Relationships with Macroscopic Electrochemical Performance?
  2. How to Understand and Regulate the Nucleation and Growth of Metal Lithium at the Anode, and Develop Strategies for Suppressing Dendrite Formation?
  3. How to Obtain High-Performance Alkali-Metal-Ion Solid-State Electrolytes for Solid State Batteries?
  4. How to Develop Aqueous Battery Systems with High Energy Density and Multi-Electron Transfer Reaction?
  5. How to Rationally Design Efficient and Long-Lasting Low/Non-Platinum Electrocatalysts and Their Large-Scale Production?
  6. How to Construct High-Efficiency Three-Phase Interface and Gain Insights into Enhanced Charge/Mass Transportation Mechanism within a Gas Diffusion Electrode?
  7. How to Decipher the Relationships among Human Diseases and Electron Transfer, Energy Conversion/Substance Transformation in Biological Processes? And How to Modulate Them with Electrochemical Methods?
  8. How to Break Through the Shockley-Queisser Limit of Energy Conversion Efficiency in Solar Cell?
  9. How to Further Reveal the Kinetic Mechanism of Multi-Steps Electrode Reactions for a Complex Corrosion System, and How to Precisely Modulate Anodic and Cathodic Processes, as Well as Their Closely Associated Interfacial Reactions?
  10. How to Electrochemically and Precisely Synthesize High Value-Added Organic Chemicals with High Efficiency and High Selectivity?

Keywords

Electrochemical Interfaces, in-situ, Electrochemical Performance, Metal Lithium, Anode, Solid State Batteries, Aqueous Battery, Electrocatalysts, Human Diseases, Solar Cell, Corrosion, Organic Chemicals, Fuel cell, Lithium-ion battery, Supercapacitor, Electrodeposition, Lithium-sulfur batteries, Photocatalysis, Oxygen reduction reaction

Creative Commons License

Creative Commons Attribution 4.0 International License
This work is licensed under a Creative Commons Attribution 4.0 International License.

Publication Date

2024-01-28

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