Structural and optical properties of strontium/copper co-doped lithium borate glass system

There is continuous search for materials having superior optical and structural properties in glass photonics, thermoluminescence dosimetry and phosphors fields. A new series of copper (Cu)/strontium (Sr) co-doped lithium borate glasses (LB:Sr, Cu) of composition (85−x)H3BO3–15Li2CO3–2SrCO3–xCu2O, w...

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Bibliographic Details
Published in:Materials & design 2016-03, Vol.94, p.121-131
Main Authors: Obayes, Hayder Khudhair, Wagiran, H., Hussin, R., Saeed, M.A.
Format: Article
Language:English
Subjects:
Absorption
Co-dopant concentration
Copper
COPPER IONS
COPPER OXIDE
Density
DOPING
Glass
GLASSES
Infrared spectra
Lithium borates
Optical properties
Photoluminescence
Photonics
PROPERTIES
Spectra
Strontium
THERMAL STABILITY
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Summary:There is continuous search for materials having superior optical and structural properties in glass photonics, thermoluminescence dosimetry and phosphors fields. A new series of copper (Cu)/strontium (Sr) co-doped lithium borate glasses (LB:Sr, Cu) of composition (85−x)H3BO3–15Li2CO3–2SrCO3–xCu2O, where x=0.005 to 0.1mol% were prepared using melt quenching method. Synthesized glasses are characterized to determine the concentration's effect of copper ions (Cu2+) on modification of the structural and optical properties. XRD patterns confirmed the amorphous nature and FESEM verified the homogeneous surface morphology. EDX spectra authenticated the accurate elemental traces. Glasses are thermally stable with Hurby parameter ~0.5. Glass density decreases with the increasing Cu2+ concentration. FTIR peaks in the range of 698–1070cm−1 attribute to trigonal and tetrahedral stretching vibrations of BO3 and BO4 units. The direct/indirect band gap and Urbach energy vary from 3.1–2.8eV/2.94–2.84eV and 1.2–2.18eV, respectively. The observed increase in refractive index ascribed to the conversion of BO4 into BO3 units. PL spectra under 280nm excitations display two peaks centered at 482 and 526nm accompanied by slight peak shift towards the lower wavelength. Excellent structural and spectroscopic characteristics of the present glass compositions indicate prospects for various photonic devices. The modification of lithium borate amorphous network structure in the presence of strontium and copper. [Display omitted] •For the first time, a new series of strontium (Sr)/copper (Cu) co-doped lithium borate glasses were synthesized.•Prepared glasses reveal excellent thermal stability, glass forming ability and optical response.•Inclusion of copper ions as co-dopant improves the overall characteristics of this glass composition.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2016.01.018