Synthesis and Boosting the Structural and Optical Characteristics of PMMA/SiC/CdS Hybrid Nanomaterials for Future Optical and Nanoelectronics Applications

The present work goals to fabricate of silicon carbide (SiC)/cadmium sulphide (CdS) nanostructures loaded poly-methyl methacrylate (PMMA) as future nanocomposite to apply in various promising optical and nanoelectronics applications. The structural and optical properties of PMMA/SiC/CdS nanostructur...

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Published in	Journal of inorganic and organometallic polymers and materials Vol. 34; no. 2; pp. 703 - 711
Main Authors	Hashim, Ahmed, Alshrefi, Saif M., Abed, Hussein H., Hadi, Aseel
Format	Journal Article
Language	English
Published	New York Springer US 01.02.2024 Springer Nature B.V
Subjects	Cadmium sulfide Chemistry Chemistry and Materials Science Energy gap Inorganic Chemistry Nanocomposites Nanoelectronics Nanomaterials Nanostructure Optical properties Organic Chemistry Polymer Sciences Polymethyl methacrylate Silicon carbide Energy gap CdS PMMA SiC Optical properties Nanoelectronics
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ISSN	1574-1443 1574-1451
DOI	10.1007/s10904-023-02866-8

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Abstract	The present work goals to fabricate of silicon carbide (SiC)/cadmium sulphide (CdS) nanostructures loaded poly-methyl methacrylate (PMMA) as future nanocomposite to apply in various promising optical and nanoelectronics applications. The structural and optical properties of PMMA/SiC/CdS nanostructures were tested. The obtained results showed that the absorbance of PMMA increased of 23.2% at λ = 240 nm, λ = 32.1% at λ = 540 nm and 34.7% at λ = 840 nm while the transmittance reduced with increasing of the SiC/CdS NPs content of 5.7 wt%. The indirect energy gap of PMMA reduced from 3.95 to 3.48 eV for allowed transition and from 3.82 to 3.2 eV when the SiC/CdS NPs content reached of 5.7 wt%, and these results make them are useful for optical and nanoelectronics fields. The other optical parameters of PMMA enhanced with rising the SiC/CdS NPs content. Finally, the results confirmed that the PMMA/SiC/CdS nanostructures can be considered as future nanocomposite to utilize in different promising optical and nanoelectronics applications.
AbstractList	The present work goals to fabricate of silicon carbide (SiC)/cadmium sulphide (CdS) nanostructures loaded poly-methyl methacrylate (PMMA) as future nanocomposite to apply in various promising optical and nanoelectronics applications. The structural and optical properties of PMMA/SiC/CdS nanostructures were tested. The obtained results showed that the absorbance of PMMA increased of 23.2% at λ = 240 nm, λ = 32.1% at λ = 540 nm and 34.7% at λ = 840 nm while the transmittance reduced with increasing of the SiC/CdS NPs content of 5.7 wt%. The indirect energy gap of PMMA reduced from 3.95 to 3.48 eV for allowed transition and from 3.82 to 3.2 eV when the SiC/CdS NPs content reached of 5.7 wt%, and these results make them are useful for optical and nanoelectronics fields. The other optical parameters of PMMA enhanced with rising the SiC/CdS NPs content. Finally, the results confirmed that the PMMA/SiC/CdS nanostructures can be considered as future nanocomposite to utilize in different promising optical and nanoelectronics applications. The present work goals to fabricate of silicon carbide (SiC)/cadmium sulphide (CdS) nanostructures loaded poly-methyl methacrylate (PMMA) as future nanocomposite to apply in various promising optical and nanoelectronics applications. The structural and optical properties of PMMA/SiC/CdS nanostructures were tested. The obtained results showed that the absorbance of PMMA increased of 23.2% at λ = 240 nm, λ = 32.1% at λ = 540 nm and 34.7% at λ = 840 nm while the transmittance reduced with increasing of the SiC/CdS NPs content of 5.7 wt%. The indirect energy gap of PMMA reduced from 3.95 to 3.48 eV for allowed transition and from 3.82 to 3.2 eV when the SiC/CdS NPs content reached of 5.7 wt%, and these results make them are useful for optical and nanoelectronics fields. The other optical parameters of PMMA enhanced with rising the SiC/CdS NPs content. Finally, the results confirmed that the PMMA/SiC/CdS nanostructures can be considered as future nanocomposite to utilize in different promising optical and nanoelectronics applications.
Author	Hashim, Ahmed Alshrefi, Saif M. Hadi, Aseel Abed, Hussein H.
Author_xml	– sequence: 1 givenname: Ahmed surname: Hashim fullname: Hashim, Ahmed email: ahmed_taay@yahoo.com organization: Department of Physics, College of Education for Pure Sciences, University of Babylon – sequence: 2 givenname: Saif M. surname: Alshrefi fullname: Alshrefi, Saif M. organization: Department of Laser Physics, College of Science for Women, University of Babylon – sequence: 3 givenname: Hussein H. surname: Abed fullname: Abed, Hussein H. organization: Department of Physics, College of Science, University of Babylon – sequence: 4 givenname: Aseel surname: Hadi fullname: Hadi, Aseel organization: Department of Ceramic and Building Materials, College of Materials Engineering, University of Babylon
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Snippet	The present work goals to fabricate of silicon carbide (SiC)/cadmium sulphide (CdS) nanostructures loaded poly-methyl methacrylate (PMMA) as future...
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SubjectTerms	Cadmium sulfide Chemistry Chemistry and Materials Science Energy gap Inorganic Chemistry Nanocomposites Nanoelectronics Nanomaterials Nanostructure Optical properties Organic Chemistry Polymer Sciences Polymethyl methacrylate Silicon carbide
Title	Synthesis and Boosting the Structural and Optical Characteristics of PMMA/SiC/CdS Hybrid Nanomaterials for Future Optical and Nanoelectronics Applications
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