Nickel hydroxide growth on renewable activated carbon microfibers for the development of supercapacitors

Hinkle III John; Bansode Archana; Alizadeh NimaPoudyal AmulyaThornhill JohnBass AnthonyZhang XinyuAdamczyk Andrew J. J.Elder ThomasAuad Maria L. L.

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Nickel hydroxide growth on renewable activated carbon microfibers for the development of supercapacitors

机译：Nickel hydroxide growth on renewable activated carbon microfibers for the development of supercapacitors

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Lignin is one of the most common naturally occurring macromolecules. It is associated with cellulose and hemicelluloses in terrestrial plants, providing mechanical stiffness and contributing to moisture control and defense toward insects and fungi. Lignin is typically a polymer of three different cinnamyl alcohols, para-coumaryl alcohol, coniferyl alcohol, and sinapyl alcohol, which varies with the plant species. Solubilized lignin from the kraft pulping process is mainly concentrated and burned as part of the liquor recovery cycle in the kraft pulping. Given its aromatic nature, other uses of lignin include the development of platform chemicals, polymers, and fuels. This work uses lignin to develop carbon fibers to act as supercapacitors. Lignin microfibers were produced using an electrospinning process, carbonized under an inert atmosphere, and activated to increase surface area and improve capacitance. The activation process is shown to improve the specific capacitance of the material. In addition to activation, nanocrystals were grown on the surface of the carbon microfibers as these nanocrystals have been shown to improve the specific capacitance. When both surface modifications are performed to the lignin-based carbon fiber, it improves the specific capacitance retention regarding scan rate increase during cyclic voltammetry. The specific capacitance for the carbon fiber, activated carbon fiber, Ni(OH)(2) carbon fiber, and Ni(OH)(2) activated carbon fiber at 10 mV/s are 189, 206, 10, and 103 F/g.

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来源
《Journal of Applied Polymer Science》 |2023年第28期|共8页
作者
Hinkle III John; Bansode Archana; Alizadeh NimaPoudyal AmulyaThornhill JohnBass AnthonyZhang XinyuAdamczyk Andrew J. J.Elder ThomasAuad Maria L. L.;
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作者单位

Auburn Univ;

US Forest Serv;

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原文格式 PDF
正文语种英语
中图分类高分子化合物工业（高聚物工业）;
关键词
activation; BET; carbon fibers; carbonization; cyclic voltammetry; electrospinning; lignin; microfibers; Ni(OH)(2) nanocrystals; supercapacitor; LIGNIN; FIBER; NANOFIBERS;

Nickel hydroxide growth on renewable activated carbon microfibers for the development of supercapacitors

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