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Facile Synthesis of Copper Oxide-Cobalt Oxide/Nitrogen-Doped Carbon (Cu2O-Co3O4/CN) Composite for Efficient Water Splitting

Zaffar Ahmed ShaikhFaculty of Computing Sciences & Information Technology, Benazir Bhutto Shaheed University, Lyari, Karachi 75660, PakistanNikita MoiseevDepartment of Mathematical Methods in Economics, Plekhanov Russia University of Economics, 117997 Moscow, RussiaAlexey MikhaylovFinancial Research Institute of Ministry of Finance of the Russian Federation, 127006 Moscow, RussiaSerhat YükselThe School of Business, Istanbul Medipol University, 34810 Istanbul, Turkey
2021en
ABI

Аннотация

Herein, we report a copper oxide-cobalt oxide/nitrogen-doped carbon hybrid (Cu2O-Co3O4/CN) composite for electrochemical water splitting. Cu2O-Co3O4/CN is synthesized by an easy two-step reaction of melamine with Cu2O-Co3O4/CN composite. The designed composite is aimed to solve energy challenges by producing hydrogen and oxygen via electrochemical catalysis. The proposed composite offers some unique advantages in water splitting. Carbon imparts superior conductivity, while the water oxidation abilities of Cu2O and Co3O4 are considered to constitute a catalyst. The synthesized composite (Cu2O-Co3O4/CN) is characterized by SEM, EDS, FTIR, TEM, and AFM in terms of the size, morphology, shape, and elemental composition of the catalyst. The designed catalyst’s electrochemical performance is evaluated via linear sweep voltammetry (LSV) and cyclic voltammetry (CV). The Cu2O-Co3O4/CN composite shows significant electrocatalytic activity, which is further improved by introducing nitrogen doped carbon (current density 10 mA cm−2, onset potential 91 mV, and overpotential 396 mV).

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