Carbon with hierarchical pores from carbonized metal–organic frameworks for lithium sulphur batteries

Kai Xi; Shuai Cao; Xiaoyu Peng; Caterina Ducati; R. Vasant Kumar; Anthony K. Cheetham

doi:10.1039/c3cc38009b

Carbon with hierarchical pores from carbonized metal–organic frameworks for lithium sulphur batteries

Kai Xi
, Shuai Cao
, Xiaoyu Peng
, Caterina Ducati
, R. Vasant Kumar
, Anthony K. Cheetham

University of Cambridge

科研成果: 期刊稿件 › 文章 › 同行评审

381 引用（Scopus）

摘要

This paper presents a novel method and rationale for utilizing carbonized MOFs for sulphur loading to fabricate cathode structures for lithium–sulphur batteries. Unique carbon materials with differing hierarchical pore structures were synthesized from four types of zinc-containing metal–organic frameworks (MOFs). It is found that cathode materials made from MOFs-derived carbons with higher mesopore (2–50 nm) volumes exhibit increased initial discharge capacities, whereas carbons with higher micropore (<2 nm) volumes lead to cathode materials with better cycle stability.

源语言	英语
页（从-至）	2192-2194
页数	3
期刊	Chemical Communications
卷	49
期	22
DOI	https://doi.org/10.1039/c3cc38009b
出版状态	已出版 - 19 2月 2013
已对外发布	是

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AU - Xi, Kai

AU - Cao, Shuai

AU - Peng, Xiaoyu

AU - Ducati, Caterina

AU - Kumar, R. Vasant

AU - Cheetham, Anthony K.

PY - 2013/2/19

Y1 - 2013/2/19

N2 - This paper presents a novel method and rationale for utilizing carbonized MOFs for sulphur loading to fabricate cathode structures for lithium–sulphur batteries. Unique carbon materials with differing hierarchical pore structures were synthesized from four types of zinc-containing metal–organic frameworks (MOFs). It is found that cathode materials made from MOFs-derived carbons with higher mesopore (2–50 nm) volumes exhibit increased initial discharge capacities, whereas carbons with higher micropore (<2 nm) volumes lead to cathode materials with better cycle stability.

AB - This paper presents a novel method and rationale for utilizing carbonized MOFs for sulphur loading to fabricate cathode structures for lithium–sulphur batteries. Unique carbon materials with differing hierarchical pore structures were synthesized from four types of zinc-containing metal–organic frameworks (MOFs). It is found that cathode materials made from MOFs-derived carbons with higher mesopore (2–50 nm) volumes exhibit increased initial discharge capacities, whereas carbons with higher micropore (<2 nm) volumes lead to cathode materials with better cycle stability.

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Carbon with hierarchical pores from carbonized metal–organic frameworks for lithium sulphur batteries

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