Shaheen, Irum and Ahmad, Khuram Shahzad and Zequine, Camila and Gupta, Ram K. and Thomas, Andrew G. and Qureshi, Anjum and Malik, Mohammad Azad and Kolkar, Javed and Alarifi, Saud (2023) Electrochemical investigation of a facile MoO3/NiO/PdO/Pd nano electrode material for supercapacitor applications. Journal of Chemical Technology and Biotechnology, 98 (10). pp. 2446-2454. ISSN 0268-2575 (Print) 1097-4660 (Online)
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Official URL: https://dx.doi.org/10.1002/jctb.7470
Abstract
BACKGROUND: Owing to the significance of metal oxide nanomaterials for energy storage supercapacitors, sustainable, cost-effective and scalable synthesis of facile nanomaterials is a great challenge in the current era. Here, we have hydrothermally synthesized and functionalized a facile ternary metal oxides (MoO3/NiO/PdO/Pd) nanomaterial using the green phyto-organic reducing plus stabilizing reagent Euphorbia cognata Boiss foliar extract (FE). The aqueous-prepared FE was reacted with metal precursors and during this process, free octodrine and cyclobutanol organic functional groups of FE were incorporated as stabilizing agents. RESULTS: The synthesized MoO3/NiO/PdO/Pd demonstrated an optical band gap energy of 1.6 eV. Supercapacitor measurements of prepared MoO3/NiO/PdO/Pd were carried out on nickel (Ni) foam-modified electrodes via charge–discharge (GCD), cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). CV measurements have been recorded at the range of scan rates (2–300 mV s−1) and it was found that the nanocomposite-modified Ni foam showed a specific capacitance of 257 F g−1 at a scanning rate of 2 mV s−1. Furthermore, from the GCD investigation, it was revealed that 175 F g−1 was achieved at 0.5 A g−1 with a discharge current-based energy density of 7.2 Wh kg−1. The fabricated electrode showed a 0.4 Ω resistance value from the impedance Nyquist plot. CONCLUSION: The study concluded that the MoO3/NiO/PdO/Pd nanocomposite with the smaller synergistic band gap and catalytic advantage of phytostabilizing agents revealed exceptional capacitive properties, validating its potential as a supercapacitor electrode. © 2023 Society of Chemical Industry (SCI).
Item Type: | Article |
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Uncontrolled Keywords: | charge–discharge; cyclicvoltammetry; energy storage; nanocomposite; phytosynthesis; supercapacitor |
Divisions: | Sabancı University Nanotechnology Research and Application Center |
Depositing User: | Irum Shaheen |
Date Deposited: | 27 Sep 2024 16:00 |
Last Modified: | 27 Sep 2024 16:00 |
URI: | https://research.sabanciuniv.edu/id/eprint/50171 |
Available Versions of this Item
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Electrochemical investigation of a facile MoO3/NiO/PdO/Pd nano electrode material for supercapacitor applications. (deposited 07 Aug 2023 19:55)
- Electrochemical investigation of a facile MoO3/NiO/PdO/Pd nano electrode material for supercapacitor applications. (deposited 27 Sep 2024 16:00) [Currently Displayed]