UPSI Digital Repository (UDRep)
Start | FAQ | About

QR Code Link :

Type :article
Subject :Q Science (General)
Main Author :Muhammad Noorazlan Abd Azis
Additional Authors :Halimah Mohamed Kamari
M. K. Halimah
A. B. Suriani
Title :Dielectric behavior in erbium-doped tellurite glass for potential high-energy capacitor
Place of Production :Tanjong Malim
Publisher :Fakulti Sains dan Matematik
Year of Publication :2019
Corporate Name :Universiti Pendidikan Sultan Idris

Abstract : Universiti Pendidikan Sultan Idris
The use of erbium ions, Er3+ to enhance the dielectric properties is investigated in tellurite glass system for the frst time, tothe best of our knowledge. A glass series of tellurite glass with chemical composition, {[(TeO2)70(B2O3)30]70(ZnO)30}100−y(Er2O3)y (y = 0, 0.005, 0.01, 0.02, 0.03, 0.04 and 0.05) was fabricated via melt-quenched technique. The X-ray difraction and Fourier transform infrared spectroscopy analysis proved the amorphous structure and the formation of nonbridging oxygen in the glass system. The Er3+ ions afect greatly to the dielectric constant, ε′ in which the dielectric constant, ε′ show high value at a lower frequency and higher temperature (above 110 °C). The reduction of dielectric constant, ε′ is found with the increment value of frequency, which corresponds to the formation of the hindrance efect on heavy dipoles caused by the mixed transition-ion efect. Meanwhile, the dielectric constant, ε′ is enhanced with the increase of temperature. The activation energy of the glass system is found to decrease, which is due to the high polarizability of Er3+ ions in the glass system. Based on these results, the erbium-doped tellurite glass is a potential kind of high-energy capacitor.

References

1. V. Fuertes, M.J. Cabrera, J. Seores, D. Muñoz, J.F. Fernández, E.Enríquez, Microstructural study of dielectric breakdown in glass–ceramics insulators. J. Eur. Ceram. Soc. 39, 376–383 (2019)

2. M.N. Azlan, M.K. Halimah, Role of Nd3+ nanoparticles on enhanced optical efciency in borotellurite glass for optical fber. Results Phys. 11, 58–64 (2018)

3. N.N. Yusof, S.K. Ghoshal, M.N. Azlan, Optical properties of titania nanoparticles embedded Er3+ doped tellurite glass: Judd-Ofelt analysis. J. Alloy Compd. 724, 1083–1092 (2017)

4. M.K. Halimah, M.F. Faznny, M.N. Azlan, H.A.A. Sidek, Optical basicity and electronic polarizability of zinc borotellurite glass doped La3+ ions. Results Phys. 7, 581–589 (2017)

5. M.S. Sajna, S. Thomas, C. Jayakrishnan, C. Joseph, P.R. Biju, N.V. Unnikrishnan, NIR emission studies and dielectric properties of Er3+-doped multicomponent tellurite glasses. Spectrochim. Acta A 161, 130–137 (2016)

6. K.L. Xu, Y. Yan, L. Zhang, H.L. Pan, J.F. Zhao, X. Jia, G. Wang, H.T. Wu, Study on structural, dielectric, thermal and chemical characteristics of aluminoborosilicate glasses doped by rare earth oxides. Mater. Technol. 29, A40–A43 (2014)

7. D. Jiang, J. Chen, B. Lu, J. Xi, F. Shang, J. Xu, G. Chen, Preparation, crystallization kinetics and microwave dielectric properties of CaO–ZnO–B2O3–P2O5–TiO2 glass–ceramics. Ceram. Int. 45(7, Part A), 8233–8237 (2019)

8. P.-K. Fischer, G.A. Schneider, Dielectric breakdown toughness from flament induced dielectric breakdown in borosilicate glass. J. Eur. Ceram. Soc. 38, 4476–4482 (2018)

9. S. Zheng, Y. Zhou, D. Yin, X. Xu, Y. Qi, S. Peng, The 1.53 μm spectroscopic properties and thermal stability in Er3+/Ce3+ codoped TeO2–WO3–Na2O–Nb2O5 glasses. J. Quant. Spectrosc. Radiat. Transf. 120, 44–51 (2013)

10. N. Yaru, L. Chunhua, Z. Yan, Z. Qitu, X. Zhongzi, Study on optical properties and structure of Sm2O3 doped boron-aluminosilicate glass. J. Rare Earths 25, 94–98 (2007)

11. A.M. Noorazlan, H.M. Kamari, S.S. Zulkefy, D.W. Mohamad, Effect of erbium nanoparticles on optical properties of zinc borotellurite glass system. J. Nanomater. (2013). https://doi. org/10.1155/2013/940917

12. C. Eevon, M.K. Halimah, A. Zakaria, C.A.C. Azurahanim, M.N. Azlan, M.F. Faznny, Linear and nonlinear optical properties of Gd3+ doped zinc borotellurite glasses for all-optical switching applications. Results Phys. 6, 761–766 (2016)

13. M.H. Shaaban, A.A. Ali, M.K. El-Nimr, The AC conductivity of tellurite glasses doped with Ho2O3. Mater. Chem. Phys. 96, 433–438 (2006)

14. P. Gayathri Pavani, K. Sadhana, V. Chandra Mouli, Optical, physical and structural studies of boro zinc tellurite glasses. Physica B 406, 1242–1247 (2011)

15. Y.B. Saddeek, E.R. Shaaban, E.S. Moustafa, H.M. Moustafa, Spectroscopic properties, electronic polarizability, and optical basicity of Bi2O3–Li2O–B2O3 glasses. Physica B 403, 2399–2407 (2008)

16. S.N. Nazrin, M.K. Halimah, F.D. Muhammad, J.S. Yip, L. Hasnimulyati, M.F. Faznny, M.A. Hazlin, I. Zaitizila, The efect of erbium oxide in physical and structural properties of zinc tellurite glass system. J. Noncryst. Solids 490, 35–43 (2018)

17. X.A. Shen, T.F. Xu, X.D. Zhang, S.X. Dai, Q.H. Nie, X.H. Zhang, Efect of SiO2 content on the thermal stability and spectroscopic properties of Er3+/Yb3+ co-doped tellurite borate glasses. Physica B 389(2), 242–247 (2007)

18. R. Hisam, A.K. Yahya, H. Mohamed Kamari, Z.A. Talib, R.H. Yahaya Subban, Anomalous dielectric constant and AC conductivity in mixed transition-metal-ion xFe2O3–(20–x)MnO2– 80TeO2 glass system. Mater. Express 6(2), 149–160 (2016)

19. M. Bosca, L. Pop, G. Borodi, P. Pascuta, E. Culea, XRD and FTIR structural investigations of erbium doped bismuth–lead–silver glasses and glass ceramics. J. Alloys Compd. 479, 579–582 (2009)

20. E.A. Mohamed, M.G. Moustafa, I. Kashif, Microstructure, thermal, optical and dielectric properties of new glass nanocomposites of SrTiO3 nanoparticles/clusters in tellurite glass matrix. J. Noncryst. Solids 482, 223–229 (2018)

21. P.N. Musfr, S. Mathew, V.P.N. Nampoori, S. Thomas, Investigations on frequency and temperature dependence of AC conductivity and dielectric parameters in Ge20Ga5Sb10S65 quaternary chalcogenide glass. Optik 182, 1244–1251 (2019)

22. R. Hisam, A.K. Hayati Yahya, D. Said, M.F. Mustafa, AC conductivity and dielectric properties of strontium–lead borate glasses. Int. J. Eng. Technol. (UAE) 7, 143–146 (2018)

23. D. He, C. Gao, Efect of boron on crystallization, microstructure and dielectric properties of CBS glass–ceramics. Ceram. Int. 44, 16246–16255 (2018)

24. P. Tripathi, P. Kumari, V.K. Mishra, R. Singh, S.P. Singh, D. Kumar, Efect of PbO–B2O3–BaO–SiO2 glass additive on dielectric properties of Ba0.5Sr0.5TiO3 ceramics for radio-frequency applications. J. Phys. Chem. Solids 127, 60–67 (2019)

25. S. Wang, J. Tian, T. Jiang, J. Zhai, B. Shen, Efect of phase structures on dielectric properties and energy storage performances in Na2O–BaO–PbO–Nb2O5–SiO2–Al2O3 glass–ceramics. Ceram. Int. 44, 23109–23115 (2018)

26. M.K. Prashant, T. Sankarappa, B.K. Vijaya, N. Nagaraja, Dielectric relaxation studies in transition metal ions doped tellurite glasses. Solid States Sci. 11, 214–218 (2009)

27. M.K. Prashant, T. Sankarappa, K. Santhosh, AC conductivity studies in rare earth ions doped vanadotellurite glasses. J. Alloy Compd. 464, 393–398 (2008)

 


This material may be protected under Copyright Act which governs the making of photocopies or reproductions of copyrighted materials.
You may use the digitized material for private study, scholarship, or research.

Back to previous page

Installed and configured by Bahagian Automasi, Perpustakaan Tuanku Bainun, Universiti Pendidikan Sultan Idris
If you have enquiries, kindly contact us at pustakasys@upsi.edu.my or 016-3630263. Office hours only.