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Vanadium oxide-based cathode for sup...

Abdullah, Hairus.

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Vanadium oxide-based cathode for supercapacitor applications = using electrodeposition method /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Vanadium oxide-based cathode for supercapacitor applications/ by Hairus Abdullah.
其他題名:	using electrodeposition method /
作者:	Abdullah, Hairus.
出版者:	Singapore :Springer Nature Singapore : : 2024.,
面頁冊數:	xi, 115 p. :ill. (some col.), digital ;24 cm.
內容註:	1. Introduction -- 2. Materials and experimental procedures -- 3. Characterization and material testing of Ni foam/Ni-doped V3O5 cathode -- 4. Developing VOx cathode on Ni(OH)2 nano sheets grown on Ni foam substrate -- 5. Assembly of a full-cell supercapacitor with amorphous Ni-doped VOx-modified Ni(OH)2 cathode and active-carbon anode.
Contained By:	Springer Nature eBook
標題:	Supercapacitors. -
電子資源:	https://doi.org/10.1007/978-981-97-5243-0
ISBN:	9789819752430

Vanadium oxide-based cathode for supercapacitor applications = using electrodeposition method /
Abdullah, Hairus.

Vanadium oxide-based cathode for supercapacitor applicationsusing electrodeposition method /[electronic resource] :by Hairus Abdullah. - Singapore :Springer Nature Singapore :2024. - xi, 115 p. :ill. (some col.), digital ;24 cm. - SpringerBriefs in applied sciences and technology,2191-5318. - SpringerBriefs in applied sciences and technology..

1. Introduction -- 2. Materials and experimental procedures -- 3. Characterization and material testing of Ni foam/Ni-doped V3O5 cathode -- 4. Developing VOx cathode on Ni(OH)2 nano sheets grown on Ni foam substrate -- 5. Assembly of a full-cell supercapacitor with amorphous Ni-doped VOx-modified Ni(OH)2 cathode and active-carbon anode.

This book highlights the use/application of Vanadium Oxide as a Supercapacitor (SC) material using the electrodeposition method. The preparation methods, material characterization, and performance testing of VOx-based SC are thoroughly discussed. Electrolyte solutions from VCl3 and other metal precursors are used to form V3O5 electrodes on nickel foam (NF) The cathode can deliver a specific capacitance value of 5689 F/g. The work is improved by depositing V3O5 film on Ni(OH)2 to form a bilayer coating on NF substrate. Ni(OH)2 with a nano-sheet structure is used for the purpose of increasing the specific surface area of V3O5 layer which can achieve specific capacitance of 7500 F/g, the energy density of 167 Wh/kg, and the power density of 199 W/kg. After 10,000 charge-discharge cycles, the capacitance retention rate is 93%. Finally, a full cell SC is assembled using the bilayer electrode and active carbon. The asymmetric and symmetric full cells performed the specific capacitances of 390 F/g and 846 F/g, the energy densities of 286 Wh/kg and 170 Wh/kg, and the power densities of 1149 W/kg and 602 W/g, respectively. After 10,000 charge-discharge cycles, the capacitance retention rates of asymmetric and symmetric full cells are 97% and 95%, respectively.

ISBN: 9789819752430

Standard No.: 10.1007/978-981-97-5243-0doiSubjects--Topical Terms:

1529939
Supercapacitors.

LC Class. No.: TK7872.C65

Dewey Class. No.: 621.315

Vanadium oxide-based cathode for supercapacitor applications = using electrodeposition method /
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520 $a This book highlights the use/application of Vanadium Oxide as a Supercapacitor (SC) material using the electrodeposition method. The preparation methods, material characterization, and performance testing of VOx-based SC are thoroughly discussed. Electrolyte solutions from VCl3 and other metal precursors are used to form V3O5 electrodes on nickel foam (NF) The cathode can deliver a specific capacitance value of 5689 F/g. The work is improved by depositing V3O5 film on Ni(OH)2 to form a bilayer coating on NF substrate. Ni(OH)2 with a nano-sheet structure is used for the purpose of increasing the specific surface area of V3O5 layer which can achieve specific capacitance of 7500 F/g, the energy density of 167 Wh/kg, and the power density of 199 W/kg. After 10,000 charge-discharge cycles, the capacitance retention rate is 93%. Finally, a full cell SC is assembled using the bilayer electrode and active carbon. The asymmetric and symmetric full cells performed the specific capacitances of 390 F/g and 846 F/g, the energy densities of 286 Wh/kg and 170 Wh/kg, and the power densities of 1149 W/kg and 602 W/g, respectively. After 10,000 charge-discharge cycles, the capacitance retention rates of asymmetric and symmetric full cells are 97% and 95%, respectively.
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