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Redox‐Active Organic Compounds for Future Sustainable Energy Storage System
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-06-16 , DOI: 10.1002/aenm.202001445 Sechan Lee 1 , Jihyun Hong 2 , Kisuk Kang 1, 3, 4
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-06-16 , DOI: 10.1002/aenm.202001445 Sechan Lee 1 , Jihyun Hong 2 , Kisuk Kang 1, 3, 4
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Utilizing redox‐active organic compounds for future energy storage system (ESS) has attracted great attention owing to potential cost efficiency and environmental sustainability. Beyond enriching the pool of organic electrode materials with molecular tailoring, recent scientific efforts demonstrate the innovations in various cell chemistries and configurations. Herein, recent major strategies to build better organic batteries, are highlighted: diversifying charge‐carrying ions, modifying electrolytes, and utilizing liquid‐type organic electrodes. Each approach is summarized along with their advantages over Li‐ion batteries (LIBs). An outlook is also provided on the practical realization of organic battery systems, which hints at possible solutions for future sustainable ESSs.
中文翻译:
用于未来可持续储能系统的氧化还原活性有机化合物
由于潜在的成本效率和环境可持续性,将氧化还原活性有机化合物用于未来的能量存储系统(ESS)已引起了极大的关注。除了通过分子定制来丰富有机电极材料之外,最近的科学努力还证明了各种电池化学和配置方面的创新。在此,重点介绍了构建更好的有机电池的近期主要策略:使携带电荷的离子多样化,修饰电解质以及利用液体型有机电极。总结了每种方法及其与锂离子电池(LIB)相比的优势。还提供了对有机电池系统实际实现的展望,这为将来的可持续ESS提供了可能的解决方案。
更新日期:2020-08-11
中文翻译:
用于未来可持续储能系统的氧化还原活性有机化合物
由于潜在的成本效率和环境可持续性,将氧化还原活性有机化合物用于未来的能量存储系统(ESS)已引起了极大的关注。除了通过分子定制来丰富有机电极材料之外,最近的科学努力还证明了各种电池化学和配置方面的创新。在此,重点介绍了构建更好的有机电池的近期主要策略:使携带电荷的离子多样化,修饰电解质以及利用液体型有机电极。总结了每种方法及其与锂离子电池(LIB)相比的优势。还提供了对有机电池系统实际实现的展望,这为将来的可持续ESS提供了可能的解决方案。
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