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Nanocrystalline SnS2 coated onto reduced graphene oxide: demonstrating the feasibility of a non-graphitic anode with sulfide chemistry for potassium-ion batteries

Lakshmi, V., Chen, Ying, Mikhaylov, Alexey A., Medvedev, Alexander G., Sultana, Irin, Rahman, Md Mokhlesur, Lev, Ovadia, Prikhodchenko, Petr V. and Glushenkov, Alexey M. 2017, Nanocrystalline SnS2 coated onto reduced graphene oxide: demonstrating the feasibility of a non-graphitic anode with sulfide chemistry for potassium-ion batteries, Chemical communications, vol. 53, no. 59, pp. 8272-8275, doi: 10.1039/c7cc03998k.

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Title Nanocrystalline SnS2 coated onto reduced graphene oxide: demonstrating the feasibility of a non-graphitic anode with sulfide chemistry for potassium-ion batteries
Author(s) Lakshmi, V.
Chen, YingORCID iD for Chen, Ying orcid.org/0000-0002-7322-2224
Mikhaylov, Alexey A.
Medvedev, Alexander G.
Sultana, Irin
Rahman, Md Mokhlesur
Lev, Ovadia
Prikhodchenko, Petr V.
Glushenkov, Alexey M.
Journal name Chemical communications
Volume number 53
Issue number 59
Start page 8272
End page 8275
Total pages 5
Publisher Royal Society of Chemistry
Place of publication London, Eng.
Publication date 2017-07-20
ISSN 1359-7345
1364-548X
Keyword(s) Science & Technology
Physical Sciences
Chemistry, Multidisciplinary
Chemistry
ENERGY-STORAGE SYSTEMS
HIGH-CAPACITY
ELECTRODES
SODIUM
PERFORMANCE
INTERCALATION
PHOSPHORUS
COMPOSITE
HOST
CELL
Summary An anode material incorporating a sulfide is reported. SnS2 nanoparticles anchored onto reduced graphene oxide are produced via a chemical route and demonstrate an impressive capacity of 350 mA h g-1, exceeding the capacity of graphite. These results open the door for a new class of high capacity anode materials (based on sulfide chemistry) for potassium-ion batteries.
Language eng
DOI 10.1039/c7cc03998k
Field of Research 03 Chemical Sciences
Copyright notice ©2017, The Royal Society of Chemistry
Free to Read? Yes
Use Rights Creative Commons Attribution licence
Persistent URL http://hdl.handle.net/10536/DRO/DU:30097945

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Every reasonable effort has been made to ensure that permission has been obtained for items included in DRO. If you believe that your rights have been infringed by this repository, please contact drosupport@deakin.edu.au.