Conductive polypyrrole-bacterial cellulose nanocomposite membranes as flexible supercapacitor electrode

Jie Xu; Ligen Zhu; Zikui Bai; Guijie Liang; Li Liu; Dong Fang; Weilin Xu

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Conductive polypyrrole-bacterial cellulose nanocomposite membranes as flexible supercapacitor electrode

机译：导电聚吡咯-细菌纤维素纳米复合膜作为柔性超级电容器电极

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Conductive nanocomposite membranes of polypyrrole/bacterial cellulose (PPy/BC) were fabricated in situ by oxidative polymerization of pyrrole with iron (Ⅲ) chloride as an oxi-dant and BC as a template. The morphology of the PPy/BC membrane indicated that PPy nanoparticles deposited on the BC surface connected to form a continuous nanosheath structure by taking along the BC nanofiber. The flexible PPy/BC membrane obtained with the optimized reaction condition exhibited a high electrical conductivity of 3.9 S cm~(-1), which was hardly affected by bending stress. The PPy/BC membrane could be directly used as flexible supercapacitor electrodes, with a maximum discharge capacity of 101.9 mAhg~(-1) (459.5 F g~(-1)) at 0.16Ag~(-1)' current density. The capacity decreased with charge/discharge cycling, which is attributed to mechanical degradation of PPy as evidenced by scanning electron microscopy (SEM).

机译：吡咯/氯化纤维素（Ⅲ）为氧化剂，BC为模板，通过吡咯的氧化聚合反应原位制备了聚吡咯/细菌纤维素（PPy / BC）纳米导电复合膜。 PPy / BC膜的形态表明，沉积在BC表面的PPy纳米颗粒通过沿着BC纳米纤维连接而形成连续的纳米鞘结构。在最佳反应条件下得到的柔性PPy / BC膜呈现出3.9 S cm〜（-1）的高电导率，几乎不受弯曲应力的影响。 PPy / BC膜可直接用作柔性超级电容器电极，在电流密度为0.16Ag（-1）时最大放电容量为101.9 mAhg（-1）（459.5 F g（-1））。容量随充电/放电循环而降低，这归因于扫描电子显微镜（SEM）证明的PPy的机械降解。

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来源
《Organic Electronics》 |2013年第12期|3331-3338|共8页
作者
Jie Xu; Ligen Zhu; Zikui Bai; Guijie Liang; Li Liu; Dong Fang; Weilin Xu;
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作者单位

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

Hubei Key Laboratory of Low Dimensional Optoelectronic Materials and Devices, Hubei University of Arts and Science, 441053 Xiangyang, China;

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

College of Materials Science & Engineering, State Key Laboratory Cultivation Base for New Textile Materials & Advanced Processing Technology, Wuhan Textile University, 430200 Wuhan, China;

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正文语种 eng
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关键词
Bacterial cellulose; Polypyrrole; Nanocomposites; Flexible electrode; Supercapacitors;

机译：细菌纤维素聚吡咯;纳米复合材料;柔性电极;超级电容器;

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Conductive polypyrrole-bacterial cellulose nanocomposite membranes as flexible supercapacitor electrode

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