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Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications

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Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications. / El-Shamy, N.T.; Mahrous, E.M.; Alghamdi, S.K. et al.
In: Journal of Materials Research and Technology, Vol. 30, 30.06.2024, p. 7927-7937.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

El-Shamy, NT, Mahrous, EM, Alghamdi, SK, Tommalieh, MJ, Abomostafa, HM, Abulyazied, DE, Rabiea, EA, Abouhaswa, AS, Ismael, A & Mohaymen Taha, TA 2024, 'Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications', Journal of Materials Research and Technology, vol. 30, pp. 7927-7937. https://doi.org/10.1016/j.jmrt.2024.05.164

APA

El-Shamy, N. T., Mahrous, E. M., Alghamdi, S. K., Tommalieh, M. J., Abomostafa, H. M., Abulyazied, D. E., Rabiea, E. A., Abouhaswa, A. S., Ismael, A., & Mohaymen Taha, T. A. (2024). Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications. Journal of Materials Research and Technology, 30, 7927-7937. https://doi.org/10.1016/j.jmrt.2024.05.164

Vancouver

El-Shamy NT, Mahrous EM, Alghamdi SK, Tommalieh MJ, Abomostafa HM, Abulyazied DE et al. Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications. Journal of Materials Research and Technology. 2024 Jun 30;30:7927-7937. Epub 2024 May 23. doi: 10.1016/j.jmrt.2024.05.164

Author

El-Shamy, N.T. ; Mahrous, E.M. ; Alghamdi, S.K. et al. / Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications. In: Journal of Materials Research and Technology. 2024 ; Vol. 30. pp. 7927-7937.

Bibtex

@article{1b97685f13514e428f79fdd26ff84a48,
title = "Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications",
abstract = "This study demonstrates the promising potential of WO3-doped calcium lithium silicate borate glasses as a multifunctional material with adjustable characteristics for a range of current technological purposes. The melt quenching technique was used for the manufacture of calcium lithium silicate borate glass samples doped with WO3 with a chemical composition of (50-x)B2O3+10SiO2+15CaO+25Li2O + xWO3, where x = 0, 1, 2, 3, and 5 mol%. Raman spectroscopy and UV optical absorption methods were used to investigate the spectroscopic characteristics of glass samples. The dielectric characteristics of the produced glass samples were investigated by broadband dielectric spectroscopy (BDS) measurements. The extremely short-range ordering structural matrices revealed by X-ray diffraction have validated the amorphous nature. The Raman spectra of the calcium lithium silicate borate glass exhibit considerable differences from those of glasses containing WO3. The prepared glass samples exhibited an obvious relationship between the replacement of WO3 and their density and molar volume. As a result of a modification in the structure, the values of packing density (Vp) and oxygen packing density (OPD) decrease as the molar concentration of WO3 increases. The inclusion of WO3 increased the optical absorbance of the synthesized glasses, as demonstrated by UV–Vis optical absorption spectra. According to the dielectric characteristics, the dielectric loss and dielectric constant decrease with frequency, while the AC electrical conductivity exhibits a progressive increase.",
author = "N.T. El-Shamy and E.M. Mahrous and S.K. Alghamdi and M.J. Tommalieh and H.M. Abomostafa and D.E. Abulyazied and E.A. Rabiea and A.S. Abouhaswa and A. Ismael and {Mohaymen Taha}, T.A.",
note = "Export Date: 30 May 2024",
year = "2024",
month = jun,
day = "30",
doi = "10.1016/j.jmrt.2024.05.164",
language = "English",
volume = "30",
pages = "7927--7937",
journal = "Journal of Materials Research and Technology",
issn = "2238-7854",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Synergistic effect of WO3 on structural, physical, optical, and dielectric characteristics of multicomponent borate glasses for optoelectronic applications

AU - El-Shamy, N.T.

AU - Mahrous, E.M.

AU - Alghamdi, S.K.

AU - Tommalieh, M.J.

AU - Abomostafa, H.M.

AU - Abulyazied, D.E.

AU - Rabiea, E.A.

AU - Abouhaswa, A.S.

AU - Ismael, A.

AU - Mohaymen Taha, T.A.

N1 - Export Date: 30 May 2024

PY - 2024/6/30

Y1 - 2024/6/30

N2 - This study demonstrates the promising potential of WO3-doped calcium lithium silicate borate glasses as a multifunctional material with adjustable characteristics for a range of current technological purposes. The melt quenching technique was used for the manufacture of calcium lithium silicate borate glass samples doped with WO3 with a chemical composition of (50-x)B2O3+10SiO2+15CaO+25Li2O + xWO3, where x = 0, 1, 2, 3, and 5 mol%. Raman spectroscopy and UV optical absorption methods were used to investigate the spectroscopic characteristics of glass samples. The dielectric characteristics of the produced glass samples were investigated by broadband dielectric spectroscopy (BDS) measurements. The extremely short-range ordering structural matrices revealed by X-ray diffraction have validated the amorphous nature. The Raman spectra of the calcium lithium silicate borate glass exhibit considerable differences from those of glasses containing WO3. The prepared glass samples exhibited an obvious relationship between the replacement of WO3 and their density and molar volume. As a result of a modification in the structure, the values of packing density (Vp) and oxygen packing density (OPD) decrease as the molar concentration of WO3 increases. The inclusion of WO3 increased the optical absorbance of the synthesized glasses, as demonstrated by UV–Vis optical absorption spectra. According to the dielectric characteristics, the dielectric loss and dielectric constant decrease with frequency, while the AC electrical conductivity exhibits a progressive increase.

AB - This study demonstrates the promising potential of WO3-doped calcium lithium silicate borate glasses as a multifunctional material with adjustable characteristics for a range of current technological purposes. The melt quenching technique was used for the manufacture of calcium lithium silicate borate glass samples doped with WO3 with a chemical composition of (50-x)B2O3+10SiO2+15CaO+25Li2O + xWO3, where x = 0, 1, 2, 3, and 5 mol%. Raman spectroscopy and UV optical absorption methods were used to investigate the spectroscopic characteristics of glass samples. The dielectric characteristics of the produced glass samples were investigated by broadband dielectric spectroscopy (BDS) measurements. The extremely short-range ordering structural matrices revealed by X-ray diffraction have validated the amorphous nature. The Raman spectra of the calcium lithium silicate borate glass exhibit considerable differences from those of glasses containing WO3. The prepared glass samples exhibited an obvious relationship between the replacement of WO3 and their density and molar volume. As a result of a modification in the structure, the values of packing density (Vp) and oxygen packing density (OPD) decrease as the molar concentration of WO3 increases. The inclusion of WO3 increased the optical absorbance of the synthesized glasses, as demonstrated by UV–Vis optical absorption spectra. According to the dielectric characteristics, the dielectric loss and dielectric constant decrease with frequency, while the AC electrical conductivity exhibits a progressive increase.

U2 - 10.1016/j.jmrt.2024.05.164

DO - 10.1016/j.jmrt.2024.05.164

M3 - Journal article

VL - 30

SP - 7927

EP - 7937

JO - Journal of Materials Research and Technology

JF - Journal of Materials Research and Technology

SN - 2238-7854

ER -