Enhanced oxygen evolution reaction via CuO@N-doped carbon nanostructures: a facile synthesis and electrocatalytic investigation
The current research work impasses on the fabrication of the best-fitted electrocatalyst for efficient and improved oxygen electrolysis process. The mesoporous CuO@N-doped carbon nanostructures were formulated using energy efficient low temperature synthesis method which is simple as well as economical. The mesoporous nanostructure of the electrocatalyst resembles the porous structure which is responsible for increase in higher anodic oxidative reactions which in turn increases the ratio of the electron charge transfer between the interfaces and of the catalyst as well. Experimental analysis revealed outstanding performance metrics, with the CuO@N-doped carbon nanostructures demonstrating a low overpotential of 350 mV at a current density of 10 mA/cm2 and a Tafel slope of 87 mV dec⁻1. The electrocatalyst was also found to be significantly stable for the oxygen evolution process (OER) in the actual industrial applications.
This work aims to tune the structural and optical features of formamidinium lead triiodide (FAPbI) perovskite thin films using 4-hydroxyphenethylammonium iodide (4-HOPhEtNH2 HI) additive. (4-…
The aim of the study is to develop a specialist dental capping agent that is particularly formulated to target pulp inflammation.
The world has a global issue in effectively utilizing and preserving fresh water owing to the significant rise in population and industrialization. Numerous strategies have been developed and put…