Green Conversion of Discarded Industrial PPS Non-Woven Fabric into Heteroatoms Co-Doped Honeycomb-Like Hierarchical Porous Carbon for Superior Performance Supercapacitor

23 Pages Posted: 26 Jul 2022

See all articles by Xi Du

Xi Du

Tiangong University

Wenjun Zhang

Tiangong University

Maliang Zhang

Tiangong University

Kunmei Su

Tiangong University

Zhenhuan Li

Tiangong University

Abstract

To achieve carbon peaking and carbon neutrality, it is important to develop a circular economy. Among them, the pollution control of solid waste is a key direction. Herein, an environmentally-friendly method has been proposed to convert the discarded industrial polyphenylene sulfide (PPS) non-woven fabric fiber into value-added hierarchical porous carbon (HPC) for superior performance supercapacitor. Pre-treatment by oxidation and nitrification, combined with activation process and carbonization, the well-organized honeycomb-like carbon material ONS-HPC-0.5 is obtained with the ultrahigh specific surface area (3112.2 m 2 g -1 ), abundant heteroatoms oxygen (10.85 atom%), nitrogen (4.93 atom%) and sulfur (5.33 atom%) codoped and hierarchical porous structure. Owing to the structure advantages, the ONS-HPC-0.5 electrode delivers high specific capacitance of 301 F g -1 at 0.5 A g -1 , superior rate characteristic and electrochemical stability in alkaline electrolyte. Notably, the assembled ONS-HPC-0.5//ONS-HPC-0.5 symmetric supercapacitor achieves the remarkable energy density of 21.87 Wh kg -1 with power density of 450 W kg -1 , which not only demonstrates this material promising application in supercapacitor industry, but also opens up a new circular economy model for the recycling of industrial solid waste.

Keywords: polyphenylene sulfide, hierarchical porous carbon, heteroatoms codoped, symmetric supercapacitor

Suggested Citation

Du, Xi and Zhang, Wenjun and Zhang, Maliang and Su, Kunmei and Li, Zhenhuan, Green Conversion of Discarded Industrial PPS Non-Woven Fabric into Heteroatoms Co-Doped Honeycomb-Like Hierarchical Porous Carbon for Superior Performance Supercapacitor. Available at SSRN: https://ssrn.com/abstract=4173291 or http://dx.doi.org/10.2139/ssrn.4173291

Xi Du (Contact Author)

Tiangong University ( email )

China

Wenjun Zhang

Tiangong University ( email )

China

Maliang Zhang

Tiangong University ( email )

China

Kunmei Su

Tiangong University ( email )

China

Zhenhuan Li

Tiangong University ( email )

China

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