High-performance capacitive deionization by lignocellulose-derived eco-friendly porous carbon materials

Ting Lu; Xingtao Xu; Shuaihua Zhang; Likun Pan; Yong Wang; Saad M. Alshehri; Tansir Ahamad; Minjun Kim; Jongbeom Na; Md Shahriar A. Hossain; Joseph G. Shapter; Yusuke Yamauchi

doi:10.1246/bcsj.20200055

High-performance capacitive deionization by lignocellulose-derived eco-friendly porous carbon materials

Ting Lu, Xingtao Xu, Shuaihua Zhang, Likun Pan, Yong Wang, Saad M. Alshehri, Tansir Ahamad, Minjun Kim, Jongbeom Na, Md Shahriar A. Hossain, Joseph G. Shapter, Yusuke Yamauchi

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

The synthesis of high-performance porous carbon materials via carbonization of environment-friendly biomass fits perfectly with the concepts of sustainability and green chemistry. Herein, we report lignocellulose-derived porous carbon materials and their high capacitive deionization (CDI) performance, achieving a high salt adsorption capacity of 12.5 mg g¹¹ and good cycling stability. The preparation of porous carbon materials via direct carbonization of lignocellulose provides a number of advantages, including cost-effectiveness, high production yields, and environment-friendliness, which are ideal for industrial application of CDI. This work not only suggests novel insights to design and prepare high-performance carbon materials but also highlights the significance of green chemistry using nature-provided biomass materials to synthesize porous carbon materials.

Original language	English
Pages (from-to)	1014-1019
Number of pages	6
Journal	Bulletin of the Chemical Society of Japan
Volume	93
Issue number	8
DOIs	https://doi.org/10.1246/bcsj.20200055
Publication status	Published - Aug 2020
Externally published	Yes

Keywords

Biomass-derived carbons
Capacitive deionization
Electrosorption

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1246/bcsj.20200055Licence: In Copyright

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title = "High-performance capacitive deionization by lignocellulose-derived eco-friendly porous carbon materials",

abstract = "The synthesis of high-performance porous carbon materials via carbonization of environment-friendly biomass fits perfectly with the concepts of sustainability and green chemistry. Herein, we report lignocellulose-derived porous carbon materials and their high capacitive deionization (CDI) performance, achieving a high salt adsorption capacity of 12.5 mg g11 and good cycling stability. The preparation of porous carbon materials via direct carbonization of lignocellulose provides a number of advantages, including cost-effectiveness, high production yields, and environment-friendliness, which are ideal for industrial application of CDI. This work not only suggests novel insights to design and prepare high-performance carbon materials but also highlights the significance of green chemistry using nature-provided biomass materials to synthesize porous carbon materials.",

keywords = "Biomass-derived carbons, Capacitive deionization, Electrosorption",

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year = "2020",

month = aug,

doi = "10.1246/bcsj.20200055",

language = "English",

volume = "93",

pages = "1014--1019",

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T1 - High-performance capacitive deionization by lignocellulose-derived eco-friendly porous carbon materials

AU - Lu, Ting

AU - Xu, Xingtao

AU - Zhang, Shuaihua

AU - Pan, Likun

AU - Wang, Yong

AU - Alshehri, Saad M.

AU - Ahamad, Tansir

AU - Kim, Minjun

AU - Na, Jongbeom

AU - Hossain, Md Shahriar A.

AU - Shapter, Joseph G.

AU - Yamauchi, Yusuke

PY - 2020/8

Y1 - 2020/8

N2 - The synthesis of high-performance porous carbon materials via carbonization of environment-friendly biomass fits perfectly with the concepts of sustainability and green chemistry. Herein, we report lignocellulose-derived porous carbon materials and their high capacitive deionization (CDI) performance, achieving a high salt adsorption capacity of 12.5 mg g11 and good cycling stability. The preparation of porous carbon materials via direct carbonization of lignocellulose provides a number of advantages, including cost-effectiveness, high production yields, and environment-friendliness, which are ideal for industrial application of CDI. This work not only suggests novel insights to design and prepare high-performance carbon materials but also highlights the significance of green chemistry using nature-provided biomass materials to synthesize porous carbon materials.

AB - The synthesis of high-performance porous carbon materials via carbonization of environment-friendly biomass fits perfectly with the concepts of sustainability and green chemistry. Herein, we report lignocellulose-derived porous carbon materials and their high capacitive deionization (CDI) performance, achieving a high salt adsorption capacity of 12.5 mg g11 and good cycling stability. The preparation of porous carbon materials via direct carbonization of lignocellulose provides a number of advantages, including cost-effectiveness, high production yields, and environment-friendliness, which are ideal for industrial application of CDI. This work not only suggests novel insights to design and prepare high-performance carbon materials but also highlights the significance of green chemistry using nature-provided biomass materials to synthesize porous carbon materials.

KW - Biomass-derived carbons

KW - Capacitive deionization

KW - Electrosorption

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UR - http://purl.org/au-research/grants/ARC/LP180100429

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DO - 10.1246/bcsj.20200055

M3 - Article

AN - SCOPUS:85091070756

SN - 0009-2673

VL - 93

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JO - Bulletin of the Chemical Society of Japan

JF - Bulletin of the Chemical Society of Japan

IS - 8

ER -

High-performance capacitive deionization by lignocellulose-derived eco-friendly porous carbon materials

Abstract

Keywords

UN SDGs

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