Description: Gamma radiation induced nickel oxide/reduced graphene oxide nanoflowers for improved dye-sensitized solar cells

Gamma radiation induced nickel oxide/reduced graphene oxide nanoflowers for improved dye-sensitized solar cells

Conversion efficiency; Dye-sensitized solar cells; Energy gap; Gamma rays; Graphene; Image enhancement; Nanoflowers; Solar cells; Chemical bath deposition methods; Exposed to; Optical analysis; Photo-anodes; Power conversion efficiencies; Radiation-induced; Nickel oxide

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Bibliographic Details
Main Authors:	Abdullah H., Lye S.Y., Mahalingam S., Asshari I., Yuliarto B., Manap A.
Other Authors:	26025061200
Format:	Article
Published:	Springer New York LLC 2023
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Description
Summary:	Conversion efficiency; Dye-sensitized solar cells; Energy gap; Gamma rays; Graphene; Image enhancement; Nanoflowers; Solar cells; Chemical bath deposition methods; Exposed to; Optical analysis; Photo-anodes; Power conversion efficiencies; Radiation-induced; Nickel oxide

Gamma radiation induced nickel oxide/reduced graphene oxide nanoflowers for improved dye-sensitized solar cells

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