Synthesis and electrochemical properties of microcanals Mg-S-Cu-S as an electrode material for energy storage applications

M. Ahsan Ali, A. Farid, A. Rasheed, Misbah Yousaf, Abdulgafor M. Alfares, N. Ayub, I. A. Khan, Mohamed A. Ghanem, Frank Marken

Research output: Contribution to journalArticlepeer-review

Abstract

The synthesis of novel nanostructured electrode materials is the community demand to overcome energy crises. Herein, the nanostructured copper-sulfide, copper-cadmium-sulfide and copper-magnesium-sulfide (Cu-S, Cd-S-Cu-S and Mg-S-Cu-S) electrodes are synthesized by chemical vapor deposition technique. The changes in crystal growth and surface morphologies of Cu-S, Cd-S-Cu-S and Mg-S-Cu-S electrodes are associated with the formation of heterostructures and change in energy fluxes. The weight % of Ni, Cu, S; Ni, Cd, Cu, S; and Ni, Mg, Cu, S are found to be 8, 62, 30; 6, 16, 48, 30; 15, 14, 45, 26 are observed in Cu-S, Cd-S-Cu-S and Mg-S-Cu-S electrodes respectively. The Mg-S-Cu-S electrode showed superior specific capacitance of 4393 and 5657 F/g at 1 mV/s and 1.0 A/g respectively. The maximum energy density and power density of Mg-S-Cu-S electrode are found to be 141 Wh/kg and 2120 W/kg respectively. The cyclic retention after 3000 cycles of Cu-S, Cd-S-Cu-S and Mg-S-Cu-S electrodes are found to be 80.8, 87.5 and 96.2 % respectively. The simulation results show that the Cd-S-Cu-S followed more capacitive-controlled while Mg-S-Cu-S followed more diffusive controlled process. Result show that the Mg-S-Cu-S electrode is comparatively more suitable for portable energy storage devices.

Original languageEnglish
Article number118588
JournalJournal of Electroanalytical Chemistry
Volume971
Early online date22 Aug 2024
DOIs
Publication statusPublished - 15 Oct 2024

Data Availability Statement

The original data with respect to figures will be made available on request.

Keywords

  • Cd-S
  • Chemical vapor deposition
  • Cu-S
  • Mg-S
  • Nanorods
  • Pseudocapacitor

ASJC Scopus subject areas

  • Analytical Chemistry
  • General Chemical Engineering
  • Electrochemistry

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