Enhanced supercapacitor performance with CZTS-based carbon nanocomposites electrodes: An electrochemical study.

J Colloid Interface Sci

Department of Chemical Engineering, Bogazici University, TR-34342, Istanbul, Turkey; TUBITAK Marmara Research Center, Material Institute, Gebze 41470, Turkey. Electronic address:

Published: November 2024

AI Article Synopsis

  • - The research highlights the urgent demand for effective energy storage solutions, leading to the development of a new composite material, CuZnSnS (CZTS) integrated with functionalized Multi-walled Carbon Nanotubes (f-MWCNT) using a hydrothermal method.
  • - Three nanocomposite variants (CZTS (10), CZTS (20), CZTS (40)) were produced with different percentages of f-MWCNT, and the CZTS (20) sample showed the best electrochemical performance with a specific capacitance of 171F/g.
  • - The study reveals that the CZTS/f-MWCNT nanocomposite retains 99% of its capacity after 3000 cycles, indicating its strong potential for enhancing

Article Abstract

The latest assessments emphasize the pressing need for effective energy storage systems as a result of limited energy availability and environmental apprehensions. This work investigates the production of a new composite material, CuZnSnS (CZTS)/functionalized-Multi-walled Carbon Nanotube (f-MWCNT), using a hydrothermal method. We analyze the physical and chemical characteristics of nanocomposite materials (CZTS (10), CZTS (20), and CZTS (40)) produced with 10 %, 20 %, and 40 % f-MWCNT by weight, respectively, as possible electrodes for supercapacitors. This work is the first to investigate the electrochemical properties of CZTS/f-MWCNT nanocomposites in this specific situation.Electrochemical measurements demonstrated considerable performance increases, notably for the CZTS (20) sample, which achieved a specific capacitance of 171F/g at a scan rate of 5 mV/s in a 6 M KOH aqueous electrolyte. Even at increased scan rates, the capacitance remained high at 94F/g, exhibiting strong rate capability. After 3000 cycles, the nanocomposite preserved 99 % of its original capacity. These findings imply that the excellent conductivity and large surface area of f-MWCNT greatly decrease charge transfer and ion diffusion resistance, boosting the nanocomposite's capacitance performance. The CZTS/f-MWCNT nanocomposite has significant promise for use in energy storage and conversion devices.

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Source
http://dx.doi.org/10.1016/j.jcis.2024.11.207DOI Listing

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