Review on High‐Loading and High‐Energy Lithium–Sulfur Batteries

Owing to high specific energy, low cost, and environmental friendliness, lithium–sulfur (Li–S) batteries hold great promise to meet the increasing demand for advanced energy storage beyond portable electronics, and to mitigate environmental problems. However, the application of Li–S batteries is cha...

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Published inAdvanced energy materials Vol. 7; no. 24
Main Authors Peng, Hong‐Jie, Huang, Jia‐Qi, Cheng, Xin‐Bing, Zhang, Qiang
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 20.12.2017
Subjects
composite cathodes
electrolytes
Energy storage
Environmental impact
Innovations
Interface reactions
lithium metal anodes
Lithium sulfur batteries
multifunctional separators
polysulfides
Sulfur
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Abstract Owing to high specific energy, low cost, and environmental friendliness, lithium–sulfur (Li–S) batteries hold great promise to meet the increasing demand for advanced energy storage beyond portable electronics, and to mitigate environmental problems. However, the application of Li–S batteries is challenged by several obstacles, including their short life and low sulfur utilization, which become more serious when sulfur loading is increased to the practically accepted level above 3–5 mg cm−2. More and more efforts have been made recently to overcome the barriers toward commercially viable Li–S batteries with a high sulfur loading. This review highlights the recent progress in high‐sulfur‐loading Li–S batteries enabled by hierarchical design principles at multiscale. Particularly, basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are under specific concerns. Hierarchy in the multiscale design is proposed to guide the future development of high‐sulfur‐loading Li–S batteries. High‐sulfur‐loading lithium–sulfur (Li–S) batteries enabled by multiscale hierarchical design principles are reviewed. The basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are of specific concern. Hierarchy in the multiscale design is proposed to guide the future development of high‐sulfur‐loading Li–S batteries.
AbstractList Owing to high specific energy, low cost, and environmental friendliness, lithium–sulfur (Li–S) batteries hold great promise to meet the increasing demand for advanced energy storage beyond portable electronics, and to mitigate environmental problems. However, the application of Li–S batteries is challenged by several obstacles, including their short life and low sulfur utilization, which become more serious when sulfur loading is increased to the practically accepted level above 3–5 mg cm−2. More and more efforts have been made recently to overcome the barriers toward commercially viable Li–S batteries with a high sulfur loading. This review highlights the recent progress in high‐sulfur‐loading Li–S batteries enabled by hierarchical design principles at multiscale. Particularly, basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are under specific concerns. Hierarchy in the multiscale design is proposed to guide the future development of high‐sulfur‐loading Li–S batteries. High‐sulfur‐loading lithium–sulfur (Li–S) batteries enabled by multiscale hierarchical design principles are reviewed. The basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are of specific concern. Hierarchy in the multiscale design is proposed to guide the future development of high‐sulfur‐loading Li–S batteries.
Owing to high specific energy, low cost, and environmental friendliness, lithium–sulfur (Li–S) batteries hold great promise to meet the increasing demand for advanced energy storage beyond portable electronics, and to mitigate environmental problems. However, the application of Li–S batteries is challenged by several obstacles, including their short life and low sulfur utilization, which become more serious when sulfur loading is increased to the practically accepted level above 3–5 mg cm −2 . More and more efforts have been made recently to overcome the barriers toward commercially viable Li–S batteries with a high sulfur loading. This review highlights the recent progress in high‐sulfur‐loading Li–S batteries enabled by hierarchical design principles at multiscale. Particularly, basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are under specific concerns. Hierarchy in the multiscale design is proposed to guide the future development of high‐sulfur‐loading Li–S batteries.
Owing to high specific energy, low cost, and environmental friendliness, lithium-sulfur (Li-S) batteries hold great promise to meet the increasing demand for advanced energy storage beyond portable electronics, and to mitigate environmental problems. However, the application of Li-S batteries is challenged by several obstacles, including their short life and low sulfur utilization, which become more serious when sulfur loading is increased to the practically accepted level above 3-5 mg cm-2. More and more efforts have been made recently to overcome the barriers toward commercially viable Li-S batteries with a high sulfur loading. This review highlights the recent progress in high-sulfur-loading Li-S batteries enabled by hierarchical design principles at multiscale. Particularly, basic insights into the interfacial reactions, strategies for mesoscale assembly, unique architectures, and configurational innovation in the cathode, anode, and separator are under specific concerns. Hierarchy in the multiscale design is proposed to guide the future development of high-sulfur-loading Li-S batteries.
Author Huang, Jia‐Qi
Cheng, Xin‐Bing
Peng, Hong‐Jie
Zhang, Qiang
Author_xml – sequence: 1
  givenname: Hong‐Jie
  surname: Peng
  fullname: Peng, Hong‐Jie
  organization: Tsinghua University
– sequence: 2
  givenname: Jia‐Qi
  surname: Huang
  fullname: Huang, Jia‐Qi
  organization: Tsinghua University
– sequence: 3
  givenname: Xin‐Bing
  surname: Cheng
  fullname: Cheng, Xin‐Bing
  organization: Tsinghua University
– sequence: 4
  givenname: Qiang
  orcidid: 0000-0002-3929-1541
  surname: Zhang
  fullname: Zhang, Qiang
  email: zhang-qiang@mails.tsinghua.edu.cn
  organization: Tsinghua University
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Huang J.‐Q. (e_1_2_7_32_1) 2017
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Hua W. (e_1_2_7_412_3) 2017
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Chang C.‐H. (e_1_2_7_402_1) 2017
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Snippet Owing to high specific energy, low cost, and environmental friendliness, lithium–sulfur (Li–S) batteries hold great promise to meet the increasing demand for...
Owing to high specific energy, low cost, and environmental friendliness, lithium-sulfur (Li-S) batteries hold great promise to meet the increasing demand for...
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SubjectTerms composite cathodes
electrolytes
Energy storage
Environmental impact
Innovations
Interface reactions
lithium metal anodes
Lithium sulfur batteries
multifunctional separators
polysulfides
Sulfur
Title Review on High‐Loading and High‐Energy Lithium–Sulfur Batteries
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Faenm.201700260
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