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Expansion-tolerant architectures for stable cycling of ultrahigh-loading sulfur cathodes in lithium-sulfur batteries

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Science Advances  03 Jan 2020:
Vol. 6, no. 1, eaay2757
DOI: 10.1126/sciadv.aay2757

Article Information

vol. 6 no. 1

Online ISSN: 
History: 
  • Received for publication June 4, 2019
  • Accepted for publication November 4, 2019
  • .

Author Information

  1. Mahdokht Shaibani1,*,
  2. Meysam Sharifzadeh Mirshekarloo1,
  3. Ruhani Singh2,
  4. Christopher D. Easton2,
  5. M. C. Dilusha Cooray1,
  6. Nicolas Eshraghi3,
  7. Thomas Abendroth4,
  8. Susanne Dörfler4,
  9. Holger Althues4,
  10. Stefan Kaskel4,5,
  11. Anthony F. Hollenkamp2,
  12. Matthew R. Hill2,6 and
  13. Mainak Majumder1,7,*
  1. 1Nanoscale Science and Engineering Laboratory (NSEL), Department of Mechanical and Aerospace Engineering, Monash University, Clayton, VIC 3168, Australia.
  2. 2CSIRO, Clayton, VIC 3168, Australia.
  3. 3GREENMAT, Department of Chemistry, University of Liège, 4000 Liège, Belgium.
  4. 4Fraunhofer Institute for Material and Beam Technology (IWS), Winterbergstr. 28, 01277 Dresden, Germany.
  5. 5TU Dresden, Chair of Inorganic Chemistry 1, Bergstraße 66, 01069 Dresden, Germany.
  6. 6Department of Chemical Engineering, Monash University, Clayton, VIC 3168, Australia.
  7. 7ARC Research Hub for Graphene Enabled Industry Transformation, Monash University, Clayton, VIC 3800, Australia.
  1. *Corresponding author. Email: m.e.shaibani{at}monash.edu (M.S.); mainak.majumder{at}monash.edu (M.M.)

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