Electrochemical Synthesis and Characterization of Interpenetrating Networks of Conducting Polymers for Enhanced Charge Storage

Shimelis Admassie; Anders Elfwing; Olle Ingan?s

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Electrochemical Synthesis and Characterization of Interpenetrating Networks of Conducting Polymers for Enhanced Charge Storage

机译：增强电荷存储的导电聚合物互穿网络的电化学合成与表征

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摘要

A supercapacitor electrode consisting of an interpenetrating network of poly(aminoanthraquinone) (PAAQ) and poly(3,4-ethylenedioxythiophene) (PEDOT) is synthesized by a simple two-step galvanostatic deposition and characterized by electrochemical methods. By electrodepositing PEDOT on top of PAAQ, it is possible to access the quinones in PAAQ and as a result the specific capacitance of PAAQ increases from 90 to 383 F g~(?1) and also significantly improves the charge-storage capacity from 25 to 106 mAh g~(?1) at a discharge current of 1 A g~(?1) . These values are also significantly higher than most reported values for PEDOT and hybrids. Moreover, the hybrid material shows excellent stability with 91% of the initial capacitance being retained after 2000 cycles at a discharge rate of 2 A g~(?1) .

机译：由简单的两步恒电流沉积法合成由聚氨基氨基蒽醌（PAAQ）和聚3,4-乙二氧基噻吩（PEDOT）互穿网络组成的超级电容器电极，并通过电化学方法对其进行表征。通过将PEDOT电沉积在PAAQ的顶部，可以接触PAAQ中的醌，结果PAAQ的比电容从90增加到383 F g〜（？1），并且电荷存储容量从25显着提高到25在1 A g〜（？1）的放电电流下为106 mAh g〜（？1）。这些值也大大高于PEDOT和杂种的大多数报道值。此外，该杂化材料显示出优异的稳定性，在2000次循环后以2Ag〜（Δ1）的放电速率保留了91％的初始电容。

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《Advanced materials interfaces》 |2016年第10期|共6页
作者
Shimelis Admassie; Anders Elfwing; Olle Ingan?s;
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正文语种 eng
中图分类特种结构材料;
关键词
discharge; capacitance; deposition;

机译：放电;电容;沉积;

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1. Electrochemical Synthesis and Characterization of Interpenetrating Networks of Conducting Polymers for Enhanced Charge Storage [J] . Shimelis Admassie, Anders Elfwing, Olle Ingan?s Advanced materials interfaces . 2016,第10期

机译：增强电荷存储的导电聚合物互穿网络的电化学合成与表征
2. Redox-assisted hydrogen bonding within interpenetrating conducting polymer networks for charge-storage materials [J] . No?l V., Randriamahazaka H.N. Electrochemistry communications . 2012,第Null期

机译：互穿导电聚合物网络中用于存储电荷的材料的氧化还原辅助氢键
3. Charge Storage Capacity of Renewable Biopolymer/Conjugated Polymer Interpenetrating Networks Enhanced by Electroactive Dopants [J] . D. H. Nagaraju, Tomasz Rebis, Roger Gabrielsson, Advanced energy materials . 2014,第1期

机译：电活性掺杂剂增强可再生生物聚合物/共轭聚合物互穿网络的电荷存储能力
4. Synthesis and Characterization of Interconnected Macroporous Fibrin/PEG-based Semi-Interpenetrating Polymer #Networks for Dermal Tissue Engineering [C] . Olfat GSIB, Ulysse Peirera, Christophe Egles, Society for Biomaterials annual meeting and exposition . 2017

机译：用于皮肤组织工程的互连大孔血纤蛋白/ PEG基半互穿聚合物＃网络的合成与表征
5. Synthesis and characterization of novel silanol-containing polymers and copolymers, novel silanol-containing polymer blends, interpolymer complexes and semi-interpenetrating polymer networks (IPNs). [D] . Lu, Shaoxiang. 1994

机译：新型含硅烷醇的聚合物和共聚物，新型含硅烷醇的聚合物共混物，互聚物配合物和半互穿聚合物网络（IPN）的合成和表征。
6. Synthesis and Characterization of Biodegradable Semi-Interpenetrating Polymer Networks Based on Star-Shaped Copolymers of ɛ-Caprolactone and Lactide [O] . Ali Hossein Rezayan, Negar Firoozi, Somayyeh Kheirjou, 2017

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7. Electrochemical synthesis and characterization of bilayers of poly(O-aminophenol)/ polypyrrole/lignin composites for enhanced charge storage in supercapacitors [O] . S. Admassie 2016

机译：聚（O-氨基苯酚）/聚吡咯/木质素复合物双层的电化学合成和表征，用于增强超级电容器中的电荷存储
8. Synthesis of Ionic Conducting Interpenetrating Polymer Networks [R] . Chiang, C. K., Bauer, B. J., Briber, R. M., 1986

机译：离子导电互穿聚合物网络的合成

Electrochemical Synthesis and Characterization of Interpenetrating Networks of Conducting Polymers for Enhanced Charge Storage

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