AI Article Synopsis
- Nickel pyrovanadate (NVO) and reduced graphene oxide (rGO) are synthesized together using a solvothermal method, resulting in a crystalline NVO structure and amorphous rGO within the nanocomposite.
- The formation of a hollow nanosphere shape for NVO is observed, which improves surface area and electrochemical stability due to the rGO incorporation.
- The NVO@rGO 20 composite achieves a specific capacitance of 3807 F/g and retains about 70% of its capacitance after 10,000 cycles, making it a promising candidate for high-performance energy storage devices.
Article Abstract
Nickel pyrovanadate (NVO) and compositing rGO in different concentrations with NVO are synthesized via the solvothermal process. XRD patterns reveal the formation of crystalline NVO and amorphous rGO in the nanocomposite. The morphology of the material resembles the formation of an NVO hollow nanosphere through a template-free synthesis route with the effect of ethylene glycol. From the CV oxidation and reduction curve, the battery-type faradic reaction is observed. The specific surface area increment via the rGO concentration increment in nanocomposites is due to the partially encapsulated hollow sphere on the 2D active surface area of rGO owing to better specific capacitance and electrochemical stability. In addition, the maximum specific capacitance of 3807 F g at 1 A g for NVO@rGO 20 is obtained via a three-electrode system. The solid-state device shows the specific capacitance retention of ∼70% even after 10,000 cycles for a scan rate of 10 A g. The liquid electrolyte device shows the specific capacitance retention of ∼90% from its initial value and the successive charge-discharge process seen over the 10,000 cycles for the scan rate 10 A g. The suitable device is identified from this work in terms of high stability, high specific capacitance, and excellent reversibility for electrochemical performance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11696402 | PMC |
| http://dx.doi.org/10.1021/acsomega.4c08731 | DOI Listing |
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