Oxygen vacancies and tailored redox activity encountered with NiCo₂O₄ nanostructures for promising applications in supercapacitor and water oxidation - Université de Lorraine Accéder directement au contenu
Article Dans Une Revue Journal of Energy Storage Année : 2024

Oxygen vacancies and tailored redox activity encountered with NiCo₂O₄ nanostructures for promising applications in supercapacitor and water oxidation

Résumé

It is well known that transition metal oxides play a significant role in the development of efficient electrochemical energy storage and conversion systems. However, their application is limited by low electrical conductivity, a limited number of electroactive sites, and limited stability. In this study, nickel‑cobalt bimetallic oxide (NiCo2O4) nanostructures were prepared using orange peel extract and its fruit juice during hydrothermal method. The use of green chemical components from orange peel extract and its fruit juice was to demonstrate their ability to manipulate NiCo2O4's structural and functional properties. For this reason, the optimized 1 mL of orange peel extract and its fruit juice was found highly active for improving the electrochemical properties of NiCo2O4 nanostructures. The electrochemical supercapacitor performance of optimized NiCo2O4 nanostructures showed a specific capacitance of 997.50 Fg−1 with a cycling stability of more than thirty thousand cycles, resulting in a capacitance retention rate of almost 100 % at 1.5 Ag−1. In addition, during the oxygen evolution reaction (OER), the overpotential was 120 mV at 20 mA/cm2 and the Tafel slope was 110 mVdec−1, with a prolonged stability exceeding 45 h were observed for optimized NiCo2O4 nanostructures. With an electrode material comprising NiCo2O4 nanostructures and an orange peel extract, outstanding electrochemical performance was obtained. This could be explained by several factors, including high electroactive site exposure, rapid charge transfer kinetics, high hydroxide adsorption, oxygen vacancies on the surface, and abundance of Co(III). The approach described here can be used for the facile synthesis of a wide range of nanostructured functional materials that exhibit impressive electrochemical properties, particularly for energy storage and conversion applications.
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hal-04377378 , version 1 (11-01-2024)

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Shusheel Kumar, Aneela Tahira, Adeel Liaquat Bhatti, Muhammad Ali Bhatti, Zaheer Ahmed Ujjan, et al.. Oxygen vacancies and tailored redox activity encountered with NiCo₂O₄ nanostructures for promising applications in supercapacitor and water oxidation. Journal of Energy Storage, 2024, 77, pp.109994. ⟨10.1016/j.est.2023.109994⟩. ⟨hal-04377378⟩
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