In situ redox functionalization of composite electrodes for high power-high energy electrochemical storage systems via a non-covalent approach

Lenaic Madec; Audrey Bouvree; Philippe Blanchard; Charles Cougnon; Thierry Brousse; Bernard Lestriez; Dominique Guyomard; Joeel Gaubicher

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In situ redox functionalization of composite electrodes for high power-high energy electrochemical storage systems via a non-covalent approach

机译：通过非共价方法对高功率-高能量电化学存储系统的复合电极进行原位氧化还原功能化

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The growing demand for new global resources of clean and sustainable energy emerges as the greatest challenge in today's society. For numerous applications such as hybrid vehicles, electrochemical storage systems simultaneously require high energy and high power. For this reason, intensive researches focus on proposing alternative devices to conventional Li battery and supercapacitors. Here, we report a proof of concept based on non-covalent redox functionalization of composite electrodes that may occur either during the calendar life or during the device functioning. The active material, a multi-redox pyrene derivative, is initially contained in the electrolyte. No additional benchmarking step is therefore required, and it can, in principle, be readily applied to any type of composite electrode (supercapacitors, battery, semi-solid flow cell etc.). Accordingly, a practical carbon fiber electrode that is 10 mg cm~(-2) loaded can deliver up to 130 kW kg_(electrode)~(-1) and 130 Wh kg_(electrode)~(-1) with negligible capacity loss over the first 60 000 charge/discharge cycles.

机译：对全球清洁和可持续能源新资源的需求不断增长，已成为当今社会的最大挑战。对于混合动力车辆等众多应用，电化学存储系统同时需要高能量和高功率。因此，深入的研究集中在提出替代传统锂电池和超级电容器的装置。在这里，我们报告了基于复合电极的非共价氧化还原功能化的概念证明，该复合电极可能在日历寿命或设备功能期间发生。电解质中首先包含活性材料，即多氧化还原pyr衍生物。因此，不需要额外的基准测试步骤，并且原则上可以轻松地将其应用于任何类型的复合电极（超级电容器，电池，半固态流通池等）。因此，负载为10 mg cm〜（-2）的实用碳纤维电极可以输送高达130 kW kg_（电极）〜（-1）和130 Wh kg_（电极）〜（-1），而容量损失可忽略不计前6万次充电/放电循环。

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《Energy & environmental science》 |2012年第1期|p.5379-5386|共8页
作者
Lenaic Madec; Audrey Bouvree; Philippe Blanchard; Charles Cougnon; Thierry Brousse; Bernard Lestriez; Dominique Guyomard; Joeel Gaubicher;
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Institut des Materiaux Jean Rouxel (IMN), Universite de Nantes, CNRS,2 rue de la Houssiniere, BP32229, 44322 Nantes Cedex 3, France;

rnInstitut des Materiaux Jean Rouxel (IMN), Universite de Nantes, CNRS,2 rue de la Houssiniere, BP32229, 44322 Nantes Cedex 3, France;

rnLaboratoire MOLTECH Anjou, UMR-CNRS6200, Universite d'Angers,2 boulevard Lavoisier, 49045 Angers, France;

rnLaboratoire MOLTECH Anjou, UMR-CNRS6200, Universite d'Angers,2 boulevard Lavoisier, 49045 Angers, France;

rnLaboratoire de Genie des Materiaux et Procedes Associes EA 2664,Polytech Nantes, Universite de Nantes, BP50609, 44 306 Nantes, France;

rnInstitut des Materiaux Jean Rouxel (IMN), Universite de Nantes, CNRS,2 rue de la Houssiniere, BP32229, 44322 Nantes Cedex 3, France;

rnInstitut des Materiaux Jean Rouxel (IMN), Universite de Nantes, CNRS,2 rue de la Houssiniere, BP32229, 44322 Nantes Cedex 3, France;

rnInstitut des Materiaux Jean Rouxel (IMN), Universite de Nantes, CNRS,2 rue de la Houssiniere, BP32229, 44322 Nantes Cedex 3, France;

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In situ redox functionalization of composite electrodes for high power-high energy electrochemical storage systems via a non-covalent approach

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