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JOURNAL ARTICLE

Reduced Graphene Oxide-MWCNT Organogel Foam for Lithium-Sulfur Battery Cathode

Elif VargünHaojie FeiGengchao WangQilin ChengJarmila VilčákováMarek JurčaEva Domincová BergerováNatalia E. KazantsevaPetr Sáha

Year: 2019 Journal:   ECS Transactions Vol: 95 (1)Pages: 81-87   Publisher: Institute of Physics
DOI: 10.1149/09501.0081ecst
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Abstract

The fabrication of self-standing porous carbon foam nanostructures for trapping sulfur in Lithium–Sulfur (Li-S) batteries was aimed in this work. Nitrogen doped reduced graphene oxide/acid treated MWCNT based cathode material was prepared and characterized by different techniques. The GO/aMWCNT organofoam nanostructures were first polymerized in-situ with aniline and pyrrole and then carbonized at 800°C under argon atmosphere. The purpose of the carbonization was to improve the conductivity of the carbon matrix and dope it with nitrogen using PANI and PPy as a nitrogen source. N-doped rGO/aMWCNT foams exhibited the three dimensional porous network morphology and high conductivity (3.06 S.cm-1). The sulfur was infiltrated to the foams by melt diffusion method and the highest sulfur content of the rGO/aMWCNT-S composite was found as 61.3 wt. %.

Keywords:
Carbonization Graphene Materials science Sulfur Oxide Chemical engineering Carbon fibers Cathode Microporous material Lithium–sulfur battery Lithium (medication) Conductivity Composite number Composite material Nanotechnology Electrochemistry Electrode Chemistry

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Citation History

Topics

Advanced Battery Materials and Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Synthesis and properties of polymers
Physical Sciences →  Materials Science →  Polymers and Plastics
Conducting polymers and applications
Physical Sciences →  Materials Science →  Polymers and Plastics

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