The development of energy storage devices with higher energy and power outputs, and long cycling stability is urgently required in the pursuit of the expanding challenges of electrical energy storage. The utilization of biologically renewable redox compounds holds a great potential in designing sustainable energy storage systems and contributes in reducing the dependence on fossil fuels for energy materials. Quinones are the principal redox centers in natural organic materials and play a key role as charge storage electrode materials because of their abundance, multiple forms and integration into the materials flow through the biosphere. Electrical energy storage devices and systems can be significantly improved by the combination of scalable quinone-based biomaterials with good electronic conductors. This review uses recent examples to show how biopolymers are providing new directions in the development of renewable biohybrid electrodes for energy storage devices.

中文翻译：

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通过混合电极中的生物大分子增强储能设备。

为了应对不断扩大的电能存储挑战，迫切需要开发具有更高能量和功率输出以及长循环稳定性的电能存储设备。生物可再生氧化还原化合物的利用在设计可持续能源存储系统方面具有巨大潜力，并有助于减少对能源材料对化石燃料的依赖。醌是天然有机材料中的主要氧化还原中心，由于它们的丰度，多种形式以及与流经生物圈的材料的整合，因此在电荷存储电极材料中起着关键作用。通过将可扩展的基于醌的生物材料与良好的电子导体相结合，可以显着改善电能存储设备和系统。