Seawater Batteries: Principles, Materials and Technology

Kim, Youngsik, Lee, Wang-Geun

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1 IntroductionReferences

2 Background and current status of seawater batteries
References

3 Fundamentals of state-of-the-art seawater batteries
3.1 Electrochemical process in seawater batteries

3.1.1 Cathode side
3.1.2 Anode sideReferences

4 Research progress of seawater batteries
4.1 Ceramic Na+ ion conductive membrane
4.2 Anode
4.2.1 Na anode
4.2.2 Na-free anode
4.2.3 Electrolytes
4.3 Cathode
4.3.1 Current collector
4.3.2 Electrocatalysts
4.3.3 Other cathode materials
References

5 Applications

6 Challenges and possible strategies to overcome
References

作者簡介

Youngsik Kim received his PhD from Iowa State University. He is a professor of Energy and Chemical Engineering at the Ulsan National Institute of Science and Technology (UNIST), and the director of the Seawater Resources Technology (SRT) Center. His research focuses on materials and devices for energy storage and conversion. Currently, he carries out active research in seawater resource fields, which includes rechargeable batteries that use seawater as an active electrode, offering a low-cost route to large-scale energy storage.
Wang-Geun Lee received his PhD in Chemistry from the Ulsan Institute of Science and Technology (UNIST), and he is a post-doc researcher of Energy and Chemical Engineering at UNIST. His research focuses on functional materials for electrocatalyst, adsorbent, and its applications. Currently, he is conducting research on electrode materials and application technologies in energy systems using seawater, such as seawater batteries.