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Electrochemical Study of Conductive Nanometric Co3O4- Based Electrodes for Asymmetric Supercapacitors in Alkaline Electrolyte

机译：碱性电解质中不对称超级电容器用导电性纳米Co3O4基电极的电化学研究

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Lithiated and protonated spinel cobalt oxide, exhibiting high electrical conductivity thanks to the presence of structural defects, could be envisioned for asymmetric supercapacitor applications. Charge storage mechanism was investigated and it is shown that only a thin layer at the material surface was involved (less than 1 nm) during the process, so that only 20% of the total theoretical capacity was achieved. A very good electrochemical stability is found, with less than 30% of the initial capacity (∼70 mA·h·g−1) lost after 3500 cycles.

机译：锂和质子化的尖晶石型氧化钴由于结构缺陷的存在而具有较高的电导率，可以设想用于不对称超级电容器应用。研究了电荷存储机制，结果表明在该过程中仅涉及材料表面的薄层（小于1 nm），因此仅获得了总理论容量的20％。发现非常好的电化学稳定性，在3500次循环后损失的初始容量不到30％（约70 mA·h·g-1）。

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Godillot Gérôme; Taberna Pierre-Louis; Daffos Barbara; Simon Patrice; Delmas Claude; Guerlou-Demourgues Liliane;
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Electrochemical Study of Conductive Nanometric Co3O4- Based Electrodes for Asymmetric Supercapacitors in Alkaline Electrolyte

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