Publication detail

Synthesis of Sulphur-Carbon Nanotubes Composite via Carbon Disulphide Solution for Li-S Batteries

CAPKOVÁ, D. KAZDA, T. ALMÁŠI, M. STRAKOVÁ FEDORKOVÁ, A.

Original Title

Synthesis of Sulphur-Carbon Nanotubes Composite via Carbon Disulphide Solution for Li-S Batteries

Type

article in a collection out of WoS and Scopus

Language

English

Original Abstract

Demant for high energy density batteries are increasing and current used lithium-ion batteries do not meet the requirements for high energy density and specific capacity. Lithium-sulphur batteries may replace lithium-ion batteries in their applications, such as personal portable devices, electromobility or stationary energy storage systems due to high theoretical capacity. Though, lithium-sulphur batteries have some major drawbacks, that block commercialization. Porous, conductive materials and optimization of electrode material preparation can suppress shortcoming of lithium-sulphur batteries. Metal-organic framework in combination with carbon Super P and multiwall carbon nanotubes can effectively confine and capture sulphur. The initial discharge capacity of the S/MOF-76(Gd)/C-CS2 electrode is 735 mAh g-1 with capacity retention of 107 % after 50 cycles.

Keywords

Battery; Lithium; Sulphur; cathode; metal-organic framework

Authors

CAPKOVÁ, D.; KAZDA, T.; ALMÁŠI, M.; STRAKOVÁ FEDORKOVÁ, A.

Released

13. 10. 2021

Publisher

Publishing ŠafárikPress

Location

Košice

Pages from

37

Pages to

39

Pages count

3

URL

https://rb.gy/nfj79y

BibTex

@inproceedings{BUT173110,
  author="Dominika {Capková} and Tomáš {Kazda} and Miroslav {Almáši} and Andrea {Straková Fedorková}",
  title="Synthesis of Sulphur-Carbon Nanotubes Composite via Carbon Disulphide Solution for Li-S Batteries",
  year="2021",
  pages="37--39",
  publisher="Publishing ŠafárikPress",
  address="Košice",
  url="https://rb.gy/nfj79y"
}