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W4379203797 endingPage "107880" @default.
W4379203797 startingPage "107880" @default.
W4379203797 abstract "Integrating electrochromism and energy storage capabilities of materials into a supercapacitor has great potential for developing intelligent and sustainable power systems and electronics. An intriguing aspect of such materials is their ability to undergo a real-time color change, indicative of the supercapacitor's charge level. In this work, Ti3C2 MXene/nickel cobalt phosphate (MXene/NiCoP) nanocomposite was successfully prepared by electrodeposition followed by spin-coating. The MXene/NiCoP nanocomposite was optimized using response surface methodology/central composite design (RSM/CCD). The proposed quadratic model displayed a residual standard error (RSE) of <5 %, indicating good model predictability. The conformational investigations, which included FTIR, Raman, XRD, XPS, FESEM, mapping, and EDX show that MXene/NiCoP nanocomposite was successfully synthesized. The synergistic effect offered by MXene/NiCoP nanocomposite resulted in superior and remarkable electrochromic energy storage performances in terms of coloration efficiency (56 cm2/C), optical contrast retention (84.45 %), specific capacity (453 mAh/g) and cycling stability (94.12 % after 5000 cycles). The MXene/NiCoP nanocomposite has exhibited exceptional electrochromic and supercapacitive properties, making it a promising candidate for advanced electroactive materials in future intelligent hybrid energy storage systems." @default.
W4379203797 created "2023-06-04" @default.
W4379203797 creator A5055082093 @default.
W4379203797 creator A5055902770 @default.
W4379203797 creator A5059982303 @default.
W4379203797 creator A5061270905 @default.
W4379203797 creator A5075735701 @default.
W4379203797 creator A5085804522 @default.
W4379203797 date "2023-09-01" @default.
W4379203797 modified "2023-10-01" @default.
W4379203797 title "Development of high-performance MXene/nickel cobalt phosphate nanocomposite for electrochromic energy storage system using response surface methodology" @default.
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W4379203797 doi "https://doi.org/10.1016/j.est.2023.107880" @default.
W4379203797 hasPublicationYear "2023" @default.
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