Functional Two-Dimensional Coordination Polymeric Layer as a Charge Barrier in Li-S Batteries

Jing-Kai Huang; Mengliu Li; Yi Wan; Sukumar Dey; Mayur Ostwal; Daliang Zhang; Chih-Wen Yang; Chun-Jen Su; U-Ser Jeng; Jun Ming; Aram Amassian; Zhiping Lai; Yu Han; Sean Li; Lain-Jong Li

doi:10.1021/acsnano.7b08223

Functional Two-Dimensional Coordination Polymeric Layer as a Charge Barrier in Li-S Batteries

Jing-Kai Huang^*, Mengliu Li, Yi Wan, Sukumar Dey, Mayur Ostwal, Daliang Zhang, Chih-Wen Yang, Chun-Jen Su, U-Ser Jeng, Jun Ming, Aram Amassian, Zhiping Lai, Yu Han, Sean Li, Lain-Jong Li

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

83 Citations (Scopus)

Abstract

Ultrathin two-dimensional (2D) polymeric layers are capable of separating gases and molecules based on the reported size exclusion mechanism. What is equally important but missing today is an exploration of the 2D layers with charge functionality, which enables applications using the charge exclusion principle. This work demonstrates a simple and scalable method of synthesizing a free-standing 2D coordination polymer Zn₂(benzimidazolate)₂(OH)₂ at the air-water interface. The hydroxyl (-OH) groups are stoichiometrically coordinated and implement electrostatic charges in the 2D structures, providing powerful functionality as a charge barrier. Electrochemical performance of the Li-S battery shows that the Zn₂(benzimidazolate)₂(OH)₂ coordination polymer layers efficiently mitigate the polysulfide shuttling effects and largely enhance the battery capacity and cycle performance. The synthesis of the proposed coordination polymeric layers is simple, scalable, cost saving, and promising for practical use in batteries. © 2018 American Chemical Society.

Original language	English
Pages (from-to)	836-843
Journal	ACS Nano
Volume	12
Issue number	1
DOIs	https://doi.org/10.1021/acsnano.7b08223
Publication status	Published - 23 Jan 2018
Externally published	Yes

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Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Research Keywords

coordination polymers
lithium-sulfur battery
polysulfide
shuttling effect
two-dimensional materials

UN SDGs

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

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title = "Functional Two-Dimensional Coordination Polymeric Layer as a Charge Barrier in Li-S Batteries",

abstract = "Ultrathin two-dimensional (2D) polymeric layers are capable of separating gases and molecules based on the reported size exclusion mechanism. What is equally important but missing today is an exploration of the 2D layers with charge functionality, which enables applications using the charge exclusion principle. This work demonstrates a simple and scalable method of synthesizing a free-standing 2D coordination polymer Zn2(benzimidazolate)2(OH)2 at the air-water interface. The hydroxyl (-OH) groups are stoichiometrically coordinated and implement electrostatic charges in the 2D structures, providing powerful functionality as a charge barrier. Electrochemical performance of the Li-S battery shows that the Zn2(benzimidazolate)2(OH)2 coordination polymer layers efficiently mitigate the polysulfide shuttling effects and largely enhance the battery capacity and cycle performance. The synthesis of the proposed coordination polymeric layers is simple, scalable, cost saving, and promising for practical use in batteries. {\textcopyright} 2018 American Chemical Society.",

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T1 - Functional Two-Dimensional Coordination Polymeric Layer as a Charge Barrier in Li-S Batteries

AU - Huang, Jing-Kai

AU - Li, Mengliu

AU - Wan, Yi

AU - Dey, Sukumar

AU - Ostwal, Mayur

AU - Zhang, Daliang

AU - Yang, Chih-Wen

AU - Su, Chun-Jen

AU - Jeng, U-Ser

AU - Ming, Jun

AU - Amassian, Aram

AU - Lai, Zhiping

AU - Han, Yu

AU - Li, Sean

AU - Li, Lain-Jong

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PY - 2018/1/23

Y1 - 2018/1/23

N2 - Ultrathin two-dimensional (2D) polymeric layers are capable of separating gases and molecules based on the reported size exclusion mechanism. What is equally important but missing today is an exploration of the 2D layers with charge functionality, which enables applications using the charge exclusion principle. This work demonstrates a simple and scalable method of synthesizing a free-standing 2D coordination polymer Zn2(benzimidazolate)2(OH)2 at the air-water interface. The hydroxyl (-OH) groups are stoichiometrically coordinated and implement electrostatic charges in the 2D structures, providing powerful functionality as a charge barrier. Electrochemical performance of the Li-S battery shows that the Zn2(benzimidazolate)2(OH)2 coordination polymer layers efficiently mitigate the polysulfide shuttling effects and largely enhance the battery capacity and cycle performance. The synthesis of the proposed coordination polymeric layers is simple, scalable, cost saving, and promising for practical use in batteries. © 2018 American Chemical Society.

AB - Ultrathin two-dimensional (2D) polymeric layers are capable of separating gases and molecules based on the reported size exclusion mechanism. What is equally important but missing today is an exploration of the 2D layers with charge functionality, which enables applications using the charge exclusion principle. This work demonstrates a simple and scalable method of synthesizing a free-standing 2D coordination polymer Zn2(benzimidazolate)2(OH)2 at the air-water interface. The hydroxyl (-OH) groups are stoichiometrically coordinated and implement electrostatic charges in the 2D structures, providing powerful functionality as a charge barrier. Electrochemical performance of the Li-S battery shows that the Zn2(benzimidazolate)2(OH)2 coordination polymer layers efficiently mitigate the polysulfide shuttling effects and largely enhance the battery capacity and cycle performance. The synthesis of the proposed coordination polymeric layers is simple, scalable, cost saving, and promising for practical use in batteries. © 2018 American Chemical Society.

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KW - polysulfide

KW - shuttling effect

KW - two-dimensional materials

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Functional Two-Dimensional Coordination Polymeric Layer as a Charge Barrier in Li-S Batteries

Abstract

Bibliographical note

Research Keywords

UN SDGs

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