In-situ synthesis of polypyrrole-MnO2-x nanocomposite hybrids

Cuentas-Gallegos AK; Gomez-Romero P

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In-situ synthesis of polypyrrole-MnO2-x nanocomposite hybrids

机译：聚吡咯-MnO2-x纳米复合杂化物的原位合成

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This work centers on hybrid materials based on MnO2-x and conducting polymers and their possible application as electrodes in rechargeable lithium batteries. We approached the study of these hybrids as an alternative to crystalline manganese oxides, which capacity is frequently limited by irreversible phase transitions. We followed the approach of forming simultaneously the organic and inorganic components in an attempt to get nanocomposite materials. PPy/MnO2-x nanocomposite hybrids were prepared by direct one-pot reaction of pyrrole and potassium permanganate, obtaining hybrids with different amounts of the inorganic phase. The results on the chemical, spectroscopic and electrochemical characterization of the PPy/MnO2-x hybrids indicated that as the MnO2-x content increases, so does the initial specific charge in lithium rechargeable cells, reaching values as high as 134 Ah/Kg.

机译：这项工作集中于基于MnO2-x和导电聚合物的混合材料及其在可充电锂电池中的电极应用。我们将这些杂化物作为结晶锰氧化物的替代品进行了研究，该结晶锰氧化物的容量通常受不可逆相变的限制。我们采用同时形成有机和无机成分的方法，以尝试获得纳米复合材料。通过吡咯与高锰酸钾直接一锅反应制备PPy / MnO2-x纳米复合杂化物，得到具有不同无机相含量的杂化物。 PPy / MnO2-x杂化物的化学，光谱和电化学表征结果表明，随着MnO2-x含量的增加，可充电锂电池的初始比电荷也随之增加，最高可达134 Ah / Kg。

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来源
《Journal of new materials for electrochemical systems》 |2005年第3期|共8页
作者
Cuentas-Gallegos AK; Gomez-Romero P;
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正文语种 eng
中图分类电化学、电解、磁化学;
关键词
lithium batteries; hybrid materials; polypyrrole; manganese oxide; conducting polymers; CHARGE-DISCHARGE PROPERTIES; CATHODE ACTIVE MATERIALS; SOL-GEL PROCESS; MANGANESE-DIOXIDE; LITHIUM BATTERIES; LI BATTERIES; OVEROXIDATION; BEHAVIOR; FTIR; COMPOSITES;

机译：锂电池;混合材料;聚吡咯;氧化锰;导电聚合物;充放电性能;阴极活性材料;溶胶-凝胶工艺;二氧化锰;锂电池;锂电池;过氧化;行为;红外;复合材料;

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1. In-situ synthesis of polypyrrole-MnO2-x nanocomposite hybrids [J] . Cuentas-Gallegos AK, Gomez-Romero P Journal of new materials for electrochemical systems . 2005,第3期

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In-situ synthesis of polypyrrole-MnO2-x nanocomposite hybrids

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