FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386435309> ?p ?o ?g. }

• W4386435309 endingPage "129688" @default.
• W4386435309 startingPage "129688" @default.
• W4386435309 abstract "Transition metal-based spinel oxides are fascinating supercapacitor electrodes materials due to their good specific capacitance (Cs) and cost-effectiveness. But the spinel materials show poor cycling stability due to their limited surface area. This issue was reduced by using carbon-based electrode materials such as rGO, which enhances the electroactive surface area that leads to improve the number of reactive sites. In this research, a simple hydrothermal approach was utilised to synthesise the CuAl2O4/rGO (CAO/rGO) nanocomposite. It successively characterised with different analytical techniques to study the physiochemical property of the synthesized materials. Additionally, the potential of the materials as the electrode was determined with a three-electrode configuration by utilising different electrochemical tools that were performed to assess the characteristics of the electrode material. The synthesised nanocomposite exhibits a magnificent specific capacitance (Cs) of 1206.14 F/g at 1 A/g, while demonstrating specific energy (Ed) of 34.83 Wh kg−1 and specific power (Pd) of 228 W kg−1 which is higher than individuals and also shows high retention capacitance value of 93.36% after 8000th charge/discharge (GCD) cycles. The symmetric behaviour of the fabricated electrode is also determined with two electrode systems exhibiting the specific energy and specific capacitance of 16.54 Wh kg−1 and 601.91 F/g, correspondingly. This study demonstrates that incorporating rGO into CuAl2O4 nanoarray improves energy storage performance and it has the potential to work in other energy storage devices." @default.
• W4386435309 created "2023-09-05" @default.
• W4386435309 creator A5014861084 @default.
• W4386435309 creator A5017888360 @default.
• W4386435309 creator A5021117804 @default.
• W4386435309 creator A5031638546 @default.
• W4386435309 creator A5047878257 @default.
• W4386435309 creator A5049370676 @default.
• W4386435309 creator A5057860661 @default.
• W4386435309 creator A5061069978 @default.
• W4386435309 creator A5063142393 @default.
• W4386435309 creator A5070100667 @default.
• W4386435309 date "2024-02-01" @default.
• W4386435309 modified "2023-10-16" @default.
• W4386435309 title "Facile synthesis of CuAl2O4/rGO nanocomposite via the hydrothermal method for supercapacitor applications" @default.
• W4386435309 cites W1965747371 @default.
• W4386435309 cites W1986198913 @default.
• W4386435309 cites W2002533022 @default.
• W4386435309 cites W2016703156 @default.
• W4386435309 cites W2019383520 @default.
• W4386435309 cites W2020160314 @default.
• W4386435309 cites W2030605075 @default.
• W4386435309 cites W2033531186 @default.
• W4386435309 cites W2037502361 @default.
• W4386435309 cites W2042801118 @default.
• W4386435309 cites W2046454633 @default.
• W4386435309 cites W2054984038 @default.
• W4386435309 cites W2061592336 @default.
• W4386435309 cites W2062181559 @default.
• W4386435309 cites W2072140143 @default.
• W4386435309 cites W2072352845 @default.
• W4386435309 cites W2073559462 @default.
• W4386435309 cites W2078853455 @default.
• W4386435309 cites W2094536980 @default.
• W4386435309 cites W2099366974 @default.
• W4386435309 cites W2111569331 @default.
• W4386435309 cites W2152026061 @default.
• W4386435309 cites W2162677524 @default.
• W4386435309 cites W2171297591 @default.
• W4386435309 cites W2220404392 @default.
• W4386435309 cites W2229614381 @default.
• W4386435309 cites W2262462384 @default.
• W4386435309 cites W2316231136 @default.
• W4386435309 cites W2464222416 @default.
• W4386435309 cites W2510604673 @default.
• W4386435309 cites W2585893151 @default.
• W4386435309 cites W2586951163 @default.
• W4386435309 cites W2588538547 @default.
• W4386435309 cites W2605286192 @default.
• W4386435309 cites W2767678307 @default.
• W4386435309 cites W2768064716 @default.
• W4386435309 cites W2774656597 @default.
• W4386435309 cites W2790825652 @default.
• W4386435309 cites W2792999341 @default.
• W4386435309 cites W2794341195 @default.
• W4386435309 cites W2800383330 @default.
• W4386435309 cites W2804600014 @default.
• W4386435309 cites W2809233091 @default.
• W4386435309 cites W2899744373 @default.
• W4386435309 cites W2909178530 @default.
• W4386435309 cites W2925467541 @default.
• W4386435309 cites W2945705660 @default.
• W4386435309 cites W2968725015 @default.
• W4386435309 cites W2970909113 @default.
• W4386435309 cites W2997048118 @default.
• W4386435309 cites W2997386332 @default.
• W4386435309 cites W3000622602 @default.
• W4386435309 cites W3013554282 @default.
• W4386435309 cites W3044021783 @default.
• W4386435309 cites W3106934327 @default.
• W4386435309 cites W3110113185 @default.
• W4386435309 cites W3115259806 @default.
• W4386435309 cites W3129153828 @default.
• W4386435309 cites W3134737117 @default.
• W4386435309 cites W3137713667 @default.
• W4386435309 cites W3157470102 @default.
• W4386435309 cites W3167852063 @default.
• W4386435309 cites W3190728207 @default.
• W4386435309 cites W3198180784 @default.
• W4386435309 cites W3209291125 @default.
• W4386435309 cites W38342837 @default.
• W4386435309 cites W4206414576 @default.
• W4386435309 cites W4282555913 @default.
• W4386435309 cites W4282937546 @default.
• W4386435309 cites W4286435486 @default.
• W4386435309 cites W4308152850 @default.
• W4386435309 cites W4308344761 @default.
• W4386435309 cites W4308406371 @default.
• W4386435309 cites W4319865072 @default.
• W4386435309 cites W567254978 @default.
• W4386435309 doi "https://doi.org/10.1016/j.fuel.2023.129688" @default.
• W4386435309 hasPublicationYear "2024" @default.
• W4386435309 type Work @default.
• W4386435309 citedByCount "0" @default.
• W4386435309 crossrefType "journal-article" @default.
• W4386435309 hasAuthorship W4386435309A5014861084 @default.
• W4386435309 hasAuthorship W4386435309A5017888360 @default.
• W4386435309 hasAuthorship W4386435309A5021117804 @default.

• next