High electrocatalytic activity of carbon support on gold-based catalyst for electro-oxidation of ethylene glycol.

In this study, multi-walled carbon nanotubes (MWCNTs) were synthesized using the arc discharge method, and gold (Au) , and Au@MWCNT nanoparticles (NPs) were obtained via a rapid and cost-effective chemical reduction method. The performance of these catalysts in ethylene glycol (EG) fuel cells was investigated. According to the Transmission Electron Microscope (TEM) results, the Au particle size was determined to be 3.89 nm, and the MWCNT diameter was found to be 8.21 nm. For EG oxidation, current densities of 33.28 mA/cm2 for Au NPs and 171.28 mA/cm2 for Au@MWCNT NPs were obtained. This result demonstrates that the MWCNT support increased the electrocatalytic activity by a factor of 5.14. Long-term stability tests showed that the MWCNT support exhibited more stable and consistent characteristics and improved CO tolerance. Electrochemical Impedance Spectroscopy (EIS) testing revealed that the MWCNT-supported structure significantly enhanced charge transfer. These findings contribute significantly to the literature by demonstrating the potential for cost-effective production of carbon supported Au NPs, and their application in fuel cells. • MWCNT production using arc-discharge method. • Preparation of Au and Au@MWCNT catalysts and their use in ethylene glycol oxidation studies. • Au@MWCNT exhibits superior electrocatalytic activity towards ethylene glycol oxidation. • Synthesis of more stable catalyst for ethylene glycol oxidation. • Anode catalyst showing high potential for fuel cell applications. [ABSTRACT FROM AUTHOR]