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Full Description
Redox-active polymers, which are known for their ability to undergo reversible redox reactions, are paving the way for more efficient and sustainable batteries, as well as revolutionary advances in medical devices. This book, Redox-active Polymers for Energy Storage and Medical Devices, is a comprehensive and focused exploration of these cutting-edge materials. It discusses a variety of topics, such as conjugated redox polymers, anthraquinone, catechol, phenothiazine, and ferrocene-based polymers designed for specific applications in organic batteries and medical devices. This book is for researchers, students, and professionals working in polymer chemistry, materials science, energy technology, and biomedical engineering.
Contents
Preface. Radical-based Redox Polymers for Rechargeable Batteries. Conjugated Redox Polymers for Energy and Biomedical Applications. Composite Polymer Electrolytes for Battery Applications. Anthraquinone-Based Redox Polymers for Organic Batteries. Poly(Ionic Liquids) as Redox Polymers in Energy Storage Applications. Phenothiazine: Cutting-Edge Material for Next-Generation Energy Storage Solutions. Ferrocene-Based Redox Polymers for Medical Applications. Redox Sensitive Hyaluronic Acid Polymers for Drug Delivery Applications. Catechol-Based Redox Polymers for Energy Storage Devices. Index.
