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Article Abstract
Supercapacitors have received significant interest as advanced energy storage solutions because of their high value of specific capacitance, power density, and extended cycle life. Cobalt-based compounds are naturally abundant and have good electrical conductivity, which makes them ideal for supercapacitor applications. In this work, ultrafine cobalt-(II) ferrocyanide (CFC) particles were produced using a complexation-mediated synthesis route and analyzed through surface, microscopic, and optical characterization techniques. In a three-electrode setup using CFC as the working electrode, the cyclic voltammetry (CV) and galvanostatic charge-discharge (GCD) techniques delivered specific capacitance values of 525 F g at 3 mV s and 435 F g at 6 A g, respectively. Additionally, a hybrid supercapacitor device was built with CFC as the cathode and activated carbon serving as the anode electrodes, respectively, demonstrating specific capacitance values of 44 F g at 3 mV s and 51 F g at 0.5 A g. The device preserved 96% of the initial capacitance with a Coulombic efficiency of 98% after 3000 GCD cycles with a maximum energy and power density of 28 W h kg and 2800 W kg, respectively. Furthermore, two CFC-based hybrid devices, each charged at 1 A g, were linked in series to illuminate a red LED for a duration of 90 s.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12392037 | PMC |
| http://dx.doi.org/10.1021/acsomega.5c02598 | DOI Listing |
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