Synthesis and characterization studies of facile CuO:La<inf>2</inf>O<inf>3</inf> nanomaterial and its role as electrode for overall energy storage and energy generation applications
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Accepted version
Embargoed until: 2024-12-04
Embargoed until: 2024-12-04
DOI
10.1007/s11696-023-03192-6
Journal
Chemical Papers
ISSN
0366-6352
Metadata
Show full item recordAbstract
The current study implements an environmental-friendly and sustainable methodology to fabricate CuO:La2O3-based electrode by using phyto-aqueous extract derived from the Amaranthus viridis plant leaves. CuO:La2O3 was synthesized in several concentrations ranging from 2.5 to 10%. The synthesized nanoparticles revealed varied morphology for different concentrations with a varying crystalline size in the range of 18.2–43.44 nm. The lowest optical band gap energy of 3.25 eV was observed for 7.5% doped concentration. Taking advantage of its unique morphology and lower crystalline size, 7.5% CuO:La2O3 was specifically selected to be utilized as an electrode material for subsequent investigations involving supercapacitor and water splitting studies. The supercapacitor behavior was studied using cyclic voltammetry (CV) and galvanostatic charge discharge (GCD) techniques. The specific capacitance value of 879.6 F/g was obtained for the fabricated electrode. The water splitting studies revealed the better potential of fabricated electrocatalyst for oxygen evolution reaction with an overpotential value of 351 mV as compared to that of hydrogen evolution reaction where the overpotential value of 182 mV was observed. Moreover, the fabricated electrocatalyst showed excellent cyclic stability for more than 2000 cycles and up to 20 h. Nevertheless, comprehensive findings displayed CuO:La2O3 as an efficient energy storage material as well as promising catalytic material for the water splitting studies. Graphical abstract: [Figure not available: see fulltext.].
Authors
Azhar, S; Ahmad, KS; Abrahams, I; Ingsel, T; Gupta, RK; El-marghany, ACollections
- Awaiting Allocation [195]