Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application
Transition metal oxides and carbonaceous nanocomposites have triggered enormous interest in the application of high-performance supercapacitors due to the outstanding electrical conductivity and superior theoretical capacitance. In this study, we prepared highly porous nanostructured NiO/C yolk-shel...
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my.um.eprints.384522024-05-13T03:35:15Z http://eprints.um.edu.my/38452/ Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application Zheng, Sheng Qiang Lim, Siew Shee Foo, Chuan Yi Haw, Choon Yian Chiu, Wee Siong Chia, Chin Hua Khiew, Poi Sim T Technology (General) Transition metal oxides and carbonaceous nanocomposites have triggered enormous interest in the application of high-performance supercapacitors due to the outstanding electrical conductivity and superior theoretical capacitance. In this study, we prepared highly porous nanostructured NiO/C yolk-shell nanocomposites via a simple calcination of nickel-based metal-organic frameworks. The porosity and electrochemical property were further enhanced by incorporating sodium and hierarchical MoS2 nanostructures via a facile hydrothermal method. It was found that the as-synthesized Na-doped MoS2@NiO/C nanocomposites with hierarchical porosity exhibited superior electrochemical performance. Particularly, the delivered electrochemical capacitance of NiO/ C yolk-shell structure was 1779.50 F g-1 in an aqueous electrolyte (2 M KOH), and a superior specific capaci-tance of 2540.63 F g-1 was acquired after the incorporation of sodium and 2D layered MoS2 into the nano -composite. When a symmetrical supercapacitor was fabricated, a remarkable energy density of 36.93 Wh kg-1 was recorded in an environmental-friendly aqueous-based electrolyte. More significantly, the outstanding delivered capacitance retention and coulombic efficiency were 111.92 % and 97.6 %, respectively after 4000 continuous GCD cycles. Hence, the Na-doped MoS2@NiO/C with hierarchical porous nanostructures and extraordinary electrochemical performance was explicitly demonstrated in this study and can be utilized as electrode active materials in realizing high-performance supercapacitors. Elsevier 2023-07 Article PeerReviewed Zheng, Sheng Qiang and Lim, Siew Shee and Foo, Chuan Yi and Haw, Choon Yian and Chiu, Wee Siong and Chia, Chin Hua and Khiew, Poi Sim (2023) Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application. Journal of Energy Storage, 63. ISSN 2352-152X, DOI https://doi.org/10.1016/j.est.2023.106980 <https://doi.org/10.1016/j.est.2023.106980>. 10.1016/j.est.2023.106980 |
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T Technology (General) Zheng, Sheng Qiang Lim, Siew Shee Foo, Chuan Yi Haw, Choon Yian Chiu, Wee Siong Chia, Chin Hua Khiew, Poi Sim Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| description |
Transition metal oxides and carbonaceous nanocomposites have triggered enormous interest in the application of high-performance supercapacitors due to the outstanding electrical conductivity and superior theoretical capacitance. In this study, we prepared highly porous nanostructured NiO/C yolk-shell nanocomposites via a simple calcination of nickel-based metal-organic frameworks. The porosity and electrochemical property were further enhanced by incorporating sodium and hierarchical MoS2 nanostructures via a facile hydrothermal method. It was found that the as-synthesized Na-doped MoS2@NiO/C nanocomposites with hierarchical porosity exhibited superior electrochemical performance. Particularly, the delivered electrochemical capacitance of NiO/ C yolk-shell structure was 1779.50 F g-1 in an aqueous electrolyte (2 M KOH), and a superior specific capaci-tance of 2540.63 F g-1 was acquired after the incorporation of sodium and 2D layered MoS2 into the nano -composite. When a symmetrical supercapacitor was fabricated, a remarkable energy density of 36.93 Wh kg-1 was recorded in an environmental-friendly aqueous-based electrolyte. More significantly, the outstanding delivered capacitance retention and coulombic efficiency were 111.92 % and 97.6 %, respectively after 4000 continuous GCD cycles. Hence, the Na-doped MoS2@NiO/C with hierarchical porous nanostructures and extraordinary electrochemical performance was explicitly demonstrated in this study and can be utilized as electrode active materials in realizing high-performance supercapacitors. |
| format |
Article |
| author |
Zheng, Sheng Qiang Lim, Siew Shee Foo, Chuan Yi Haw, Choon Yian Chiu, Wee Siong Chia, Chin Hua Khiew, Poi Sim |
| author_facet |
Zheng, Sheng Qiang Lim, Siew Shee Foo, Chuan Yi Haw, Choon Yian Chiu, Wee Siong Chia, Chin Hua Khiew, Poi Sim |
| author_sort |
Zheng, Sheng Qiang |
| title |
Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| title_short |
Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| title_full |
Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| title_fullStr |
Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| title_full_unstemmed |
Fabrication of sodium and MoS2 incorporated NiO and carbon nanostructures for advanced supercapacitor application |
| title_sort |
fabrication of sodium and mos2 incorporated nio and carbon nanostructures for advanced supercapacitor application |
| publisher |
Elsevier |
| publishDate |
2023 |
| url |
http://eprints.um.edu.my/38452/ |
| _version_ |
1800082903772692480 |
| score |
13.211869 |