聚苯胺/聚乙烯醇复合材料超级电容器电极材料的合成与表征

IF 2.1 4区材料科学 Q3 MATERIALS SCIENCE, COMPOSITES

Plastics, Rubber and Composites Pub Date : 2021-09-23 DOI:10.1080/14658011.2021.1981090

Roopasri Rajamany, Sivakrishna Prakash, Y. Ismail

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引用次数: 4

摘要

摘要以乙醇为混凝剂，通过苯胺的原位聚合制备了聚苯胺和聚乙烯醇复合材料，并对其作为超级电容器电极材料的适用性进行了表征。热稳定的复合材料具有中等高的导电性。添加0.03 mol苯胺的复合材料电导率为0.371 × 10−2 S/cm。电导率随苯胺含量的增加而变化，这与从电子能谱和红外下降估计的带隙能一致。扫描电镜分析证实了在聚乙烯醇基质中生长的聚苯胺(PANI)的珊瑚状纳米线。循环伏安研究表明，复合材料具有较高的电活性，离子易于通过聚苯胺纳米线扩散，从而进行高效的电化学反应。含有0.03 mol苯胺的复合材料在5 mV/s的扫描速率下具有302 Fg−1的优越比电容。该复合材料的最大能量密度为41.94 Whkg−1，即使在环境条件下储存18个月后也具有良好的稳定性，电容保留率为83.3%。

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Synthesis and characterisation of polyaniline/polyvinyl alcohol composites as supercapacitor electrode materials

ABSTRACT Composites of polyaniline and polyvinyl alcohol were prepared through an in-situ polymerisation of aniline using ethanol as a coagulating agent and characterised for their applicability as supercapacitor electrode material. The thermally stable composites afford moderately high electrical conductivity. Composite with 0.03 mol aniline exhibited a high electrical conductivity of 0.371 × 10−2 S/cm. The variation in electrical conductivity with an increase in aniline content is consistent with the band gap energies estimated from electronic spectra and IR drop. SEM analysis confirms coral-like nanowires of polyaniline (PANI) grown within the polyvinyl alcohol matrix. Cyclic voltametric studies revealed that the composites are highly electroactive as they allow easy diffusion of ions through the nanowires of PANI for efficient electrochemical reaction. The composite with 0.03 mol aniline has a superior specific capacitance of 302 Fg−1 at a scan rate of 5 mV/s. The composite exhibited a maximum energy density of 41.94 Whkg−1 and excellent stability even after storage of 18 months in ambient condition with 83.3% capacitance retention.

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来源期刊

Plastics, Rubber and Composites 工程技术-材料科学：复合

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

4 months

期刊介绍： Plastics, Rubber and Composites: Macromolecular Engineering provides an international forum for the publication of original, peer-reviewed research on the macromolecular engineering of polymeric and related materials and polymer matrix composites. Modern polymer processing is increasingly focused on macromolecular engineering: the manipulation of structure at the molecular scale to control properties and fitness for purpose of the final component. Intimately linked to this are the objectives of predicting properties in the context of an optimised design and of establishing robust processing routes and process control systems allowing the desired properties to be achieved reliably.