High-Performance Membrane Capacitive Deionization Based on Metal-Organic Framework-Derived Hierarchical Carbon Structures

Wenhui Shi; Chenzeng Ye; Xilian Xu; Xiaoyue Liu; Meng Ding; Wenxian Liu; Xiehong Cao; Jiangnan Shen; Hui Ying Yang; Congjie Gao

doi:10.1021/acsomega.8b01356

High-Performance Membrane Capacitive Deionization Based on Metal-Organic Framework-Derived Hierarchical Carbon Structures

Wenhui Shi, Chenzeng Ye, Xilian Xu, Xiaoyue Liu, Meng Ding, Wenxian Liu, Xiehong Cao^*, Jiangnan Shen, Hui Ying Yang, Congjie Gao

^*Corresponding author for this work

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

44 Citations (Scopus)

Abstract

Membrane capacitive deionization (MCDI) is a simple and highly energy efficient method to convert brackish water to clean water. In this work, a high-performance MCDI electrode architecture, which is composed of three-dimensional graphene networks and metal-organic frameworks (MOFs)-derived porous carbon rods, was prepared by a facile method. The obtained electrode material possesses not only the conducting networks for rapid electron transport but also the short diffusion length of ions, which exhibits excellent desalination performance with a high salt removal capacity, i.e., 37.6 mg g^-1 at 1.2 V in 1000 mg L^-1 NaCl solution. This strategy can be extended to other MOF-derived MCDI electrodes.

Original language	English
Pages (from-to)	8506-8513
Number of pages	8
Journal	ACS Omega
Volume	3
Issue number	8
DOIs	https://doi.org/10.1021/acsomega.8b01356
Publication status	Published - 1 Aug 2018
Externally published	Yes

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title = "High-Performance Membrane Capacitive Deionization Based on Metal-Organic Framework-Derived Hierarchical Carbon Structures",

abstract = "Membrane capacitive deionization (MCDI) is a simple and highly energy efficient method to convert brackish water to clean water. In this work, a high-performance MCDI electrode architecture, which is composed of three-dimensional graphene networks and metal-organic frameworks (MOFs)-derived porous carbon rods, was prepared by a facile method. The obtained electrode material possesses not only the conducting networks for rapid electron transport but also the short diffusion length of ions, which exhibits excellent desalination performance with a high salt removal capacity, i.e., 37.6 mg g-1 at 1.2 V in 1000 mg L-1 NaCl solution. This strategy can be extended to other MOF-derived MCDI electrodes.",

author = "Wenhui Shi and Chenzeng Ye and Xilian Xu and Xiaoyue Liu and Meng Ding and Wenxian Liu and Xiehong Cao and Jiangnan Shen and Yang, \{Hui Ying\} and Congjie Gao",

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T1 - High-Performance Membrane Capacitive Deionization Based on Metal-Organic Framework-Derived Hierarchical Carbon Structures

AU - Shi, Wenhui

AU - Ye, Chenzeng

AU - Xu, Xilian

AU - Liu, Xiaoyue

AU - Ding, Meng

AU - Liu, Wenxian

AU - Cao, Xiehong

AU - Shen, Jiangnan

AU - Yang, Hui Ying

AU - Gao, Congjie

PY - 2018/8/1

Y1 - 2018/8/1

N2 - Membrane capacitive deionization (MCDI) is a simple and highly energy efficient method to convert brackish water to clean water. In this work, a high-performance MCDI electrode architecture, which is composed of three-dimensional graphene networks and metal-organic frameworks (MOFs)-derived porous carbon rods, was prepared by a facile method. The obtained electrode material possesses not only the conducting networks for rapid electron transport but also the short diffusion length of ions, which exhibits excellent desalination performance with a high salt removal capacity, i.e., 37.6 mg g-1 at 1.2 V in 1000 mg L-1 NaCl solution. This strategy can be extended to other MOF-derived MCDI electrodes.

AB - Membrane capacitive deionization (MCDI) is a simple and highly energy efficient method to convert brackish water to clean water. In this work, a high-performance MCDI electrode architecture, which is composed of three-dimensional graphene networks and metal-organic frameworks (MOFs)-derived porous carbon rods, was prepared by a facile method. The obtained electrode material possesses not only the conducting networks for rapid electron transport but also the short diffusion length of ions, which exhibits excellent desalination performance with a high salt removal capacity, i.e., 37.6 mg g-1 at 1.2 V in 1000 mg L-1 NaCl solution. This strategy can be extended to other MOF-derived MCDI electrodes.

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DO - 10.1021/acsomega.8b01356

M3 - Article

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JO - ACS Omega

JF - ACS Omega

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High-Performance Membrane Capacitive Deionization Based on Metal-Organic Framework-Derived Hierarchical Carbon Structures

Abstract

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