Electrochemically Synthesize SrSe/ZrSe Heterostructure Material for Photovoltaic Application
Publish place: Advanced Journal of Chemistry-Section A، Vol: 6، Issue: 4
Publish Year: 1402
Type: Journal paper
Language: English
View: 187
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Document National Code:
JR_AJCS-6-4_007
Index date: 20 September 2023
Electrochemically Synthesize SrSe/ZrSe Heterostructure Material for Photovoltaic Application abstract
In this research, SrSe/ZrSe super-lattice was synthesized using an electrochemical deposition technique. The XRD pattern reveals a polycrystalline cubic structure with a diffraction angle at 2 thetas 11.93o, 13.97o, 20.87o, and 27.71o. Introducing ZrSe increased the peak intensity, signifying improved film crystallinity. Time had a significant effect on the electrical parameters and thickness of SrSe/ZrSe super-lattice. The film's absorbance decreases as its wavelength increases. The film's transmittance increases with wavelength. The SrSe/ZrSe synthesized at normal time had a bandgap energy of 2.50 eV. As the time of deposition increased, the bandgap energy decreased to 2.39 - 2.22 eV.
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Electrochemically Synthesize SrSe/ZrSe Heterostructure Material for Photovoltaic Application authors
Alexander Ighemuno Agbrara
Department of Physics, Delta State University, Abraka, Delta State, Nigeria
Ernest Ogheneruona Ojegu
Department of Physics, Delta State University, Abraka, Delta State, Nigeria
Mike Onyekachukwu Osiele
Department of Physics, Delta State University, Abraka, Delta State, Nigeria
Imosobomeh Ikhioya
Department of Physics and Astronomy, University of Nigeria, Nsukka, Nigeria
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