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In Situ Synthesis of CoCeS Bimetallic Sulfide Nanoparticles on a Bi-Pyrene Terminated Molecular Wire Modified Graphene Surface for Supercapacitors. | LitMetric

In Situ Synthesis of CoCeS Bimetallic Sulfide Nanoparticles on a Bi-Pyrene Terminated Molecular Wire Modified Graphene Surface for Supercapacitors.

Chemistry

College of Materials Science and Engineering Institute for Graphene Applied Technology Innovation Collaborative Innovation Centre for Marine Biomass Fibers Materials and Textiles of Shandong Province, Qingdao University, Qingdao, 266071, China.

Published: December 2021

AI Article Synopsis

  • - The study details the creation of a composite material, CoCeS -SA@BPMW@RGO, which enhances graphene's electrical conductivity through specific molecular interactions and structural arrangements.
  • - The composite combines sodium alginate with cobalt and cerium, loading it onto graphene surfaces designed to maintain nanoscale spacing between sheets, improving performance and preventing re-stacking.
  • - The resultant material demonstrates excellent electrochemical performance with a high specific capacitance of 1004 F/g and powers an innovative solid-state supercapacitor that achieves a power density of 979 W/kg and an energy density of 23.96 Wh/kg.

Article Abstract

The excellent electrical conductivity of graphene is due to its highly-conjugated structures. Manipulation of the electronic and mechanical properties of graphene can be achieved by controlling the destruction of its in-sheet conjugation system. Herein, we report the preparation of CoCeS -SA@BPMW@RGO through π-π stacking interactions at the molecular level. In this study, sodium alginate was reacted with Co and Ce , and the composite was loaded onto a graphene surface. The graphene sheets were prepared using a bi-pyrene terminated molecular wire (BPMW) to avoid re-stacking of the grapheme sheets, thereby forming nanoscale spaces between sheets. The angle between the BPMW coplanar pyrene group and the phenyl group was 33.2°, and the graphene layer is supported in an oblique direction. Finally, a three-dimensional porous composite was obtained after annealing and vulcanization. The obtained CoCeS -SA@BPMW@RGO exhibited excellent electrical conductivity and remarkable cycle stability. When the current density was 1 A g , its specific capacitance was as high as 1004 F g . BPMW modifies graphene through the synergistic effect of π-π stacking interaction and special structure to obtain excellent electrochemical performance. Moreover, a solid-state asymmetric supercapacitor device was fabricated based on the synthesized CoCeS -SA@BPMW@RGO hybrid, which exhibited a power density of 979 W kg at an energy density of 23.96 Wh kg .

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Source
http://dx.doi.org/10.1002/chem.202103145DOI Listing

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