2D MXene incorporated nickel hydroxide composite for supercapacitor application

In the current investigation, we report the successful synthesis of a novel Ni(OH) 2 /Ti 3 C 2 T x MXene nanocomposite via a microwave-assisted technique, specifically tailored for supercapacitor applications. The inherent semiconductor properties of nickel hydroxide often impede its electrochemical...

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Published in	Journal of materials science. Materials in electronics Vol. 35; no. 10; p. 697
Main Authors	Lokhande, P. E., Jagtap, Chaitali, Kadam, Vishal, Udayabhaskar, R., Kumar, Deepak, Ali Al-Asbahi, Bandar, Anil Kumar, Yedluri
Format	Journal Article
Language	English
Published	New York Springer US 01.04.2024 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Materials Science MXenes Nanocomposites Nickel Nickel compounds Optical and Electronic Materials Stability Supercapacitors Synthesis Titanium carbide
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Abstract	In the current investigation, we report the successful synthesis of a novel Ni(OH) 2 /Ti 3 C 2 T x MXene nanocomposite via a microwave-assisted technique, specifically tailored for supercapacitor applications. The inherent semiconductor properties of nickel hydroxide often impede its electrochemical capabilities; however, the integration with a conductive host material can significantly ameliorate this limitation. To this end, Titanium Carbide (Ti 3 C 2 T x ) was incorporated during the Nickel Hydroxide (Ni(OH) 2 ) synthesis process, resulting in the in-situ formation of Ni(OH) 2 nanosheets homogeneously anchored onto the MXene sheets. The electrode derived from this nanocomposite showcased exceptional electrochemical attributes. Notably, it achieved a remarkable-specific capacitance peak of 675 Fg −1 at a current density of 2 Ag −1 , coupled with outstanding stability and cyclability metrics. Furthermore, the asymmetric supercapacitor engineered with the synthesized material attained an energy density of 9.25 Whkg −1 and a power density of 3.2 kWkg −1 . This device not only demonstrated superior rate capability but also sustained cyclic stability. The empirical evidence gathered from these experiments underscores the promising potential of metal hydroxide/MXene nanocomposites in advancing supercapacitor technology.
AbstractList	In the current investigation, we report the successful synthesis of a novel Ni(OH) 2 /Ti 3 C 2 T x MXene nanocomposite via a microwave-assisted technique, specifically tailored for supercapacitor applications. The inherent semiconductor properties of nickel hydroxide often impede its electrochemical capabilities; however, the integration with a conductive host material can significantly ameliorate this limitation. To this end, Titanium Carbide (Ti 3 C 2 T x ) was incorporated during the Nickel Hydroxide (Ni(OH) 2 ) synthesis process, resulting in the in-situ formation of Ni(OH) 2 nanosheets homogeneously anchored onto the MXene sheets. The electrode derived from this nanocomposite showcased exceptional electrochemical attributes. Notably, it achieved a remarkable-specific capacitance peak of 675 Fg −1 at a current density of 2 Ag −1 , coupled with outstanding stability and cyclability metrics. Furthermore, the asymmetric supercapacitor engineered with the synthesized material attained an energy density of 9.25 Whkg −1 and a power density of 3.2 kWkg −1 . This device not only demonstrated superior rate capability but also sustained cyclic stability. The empirical evidence gathered from these experiments underscores the promising potential of metal hydroxide/MXene nanocomposites in advancing supercapacitor technology. In the current investigation, we report the successful synthesis of a novel Ni(OH)2/Ti3C2Tx MXene nanocomposite via a microwave-assisted technique, specifically tailored for supercapacitor applications. The inherent semiconductor properties of nickel hydroxide often impede its electrochemical capabilities; however, the integration with a conductive host material can significantly ameliorate this limitation. To this end, Titanium Carbide (Ti3C2Tx) was incorporated during the Nickel Hydroxide (Ni(OH)2) synthesis process, resulting in the in-situ formation of Ni(OH)2 nanosheets homogeneously anchored onto the MXene sheets. The electrode derived from this nanocomposite showcased exceptional electrochemical attributes. Notably, it achieved a remarkable-specific capacitance peak of 675 Fg−1 at a current density of 2 Ag−1, coupled with outstanding stability and cyclability metrics. Furthermore, the asymmetric supercapacitor engineered with the synthesized material attained an energy density of 9.25 Whkg−1 and a power density of 3.2 kWkg−1. This device not only demonstrated superior rate capability but also sustained cyclic stability. The empirical evidence gathered from these experiments underscores the promising potential of metal hydroxide/MXene nanocomposites in advancing supercapacitor technology.
ArticleNumber	697
Author	Jagtap, Chaitali Anil Kumar, Yedluri Udayabhaskar, R. Ali Al-Asbahi, Bandar Lokhande, P. E. Kadam, Vishal Kumar, Deepak
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Sci: Mater. Electron. doi: 10.1007/s10854-023-10433-7
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Snippet	In the current investigation, we report the successful synthesis of a novel Ni(OH) 2 /Ti 3 C 2 T x MXene nanocomposite via a microwave-assisted technique,... In the current investigation, we report the successful synthesis of a novel Ni(OH)2/Ti3C2Tx MXene nanocomposite via a microwave-assisted technique,...
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SubjectTerms	Characterization and Evaluation of Materials Chemistry and Materials Science Materials Science MXenes Nanocomposites Nickel Nickel compounds Optical and Electronic Materials Stability Supercapacitors Synthesis Titanium carbide
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Title	2D MXene incorporated nickel hydroxide composite for supercapacitor application
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