Riadh Elleuch scite author profile

Y2Ti2O7:Er(3+)/Yb(3+) (EYYTO) phosphors co-doped with Li(+) ions were synthesized by a conventional solid-state ceramic method. X-ray diffraction studies show that all the Li(+) co-doped EYYTO samples are highly crystalline in nature with pyrochlore face centred cubic structure. X-ray photon spectroscopy studies reveal that the incorporation of Li(+) ions creates the defects and/or vacancies associated with the sample surface. The effect of Li(+) ions on the photoluminescence up-conversion intensity of EYYTO was studied in detail. The up-conversion study under ∼976 nm excitation for different concentrations of Li(+) ions showed that the green and red band intensities were significantly enhanced. The 2 at% Li(+) ion co-doped EYYTO samples showed nearly 15- and 8-fold enhancements in green and red band up-converted intensities compared to Li(+) ion free EYYTO. The process involved in the up-conversion emission was evaluated in detail by pump power dependence, the energy level diagram, and decay analysis. The incorporation of Li(+) ions modified the crystal field around the Er(3+) ions, thus improving the up-conversion intensity. To investigate the sensing application of the synthesized phosphor materials, temperature-sensing performance was evaluated using the fluorescence intensity ratio technique. Appreciable temperature sensitivity was obtained using the synthesized phosphor material, indicating its applicability as a high-temperature-sensing probe. The maximum sensitivity was found to be 0.0067 K(-1) at 363 K.

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Study of the interaction between microstructure, mechanical and tribo-performance of a commercial brake lining material

Sellami

Kchaou

Elleuch

et al. 2014

Materials & Design

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Structural and luminescence correlation of annealed Er-ZnO/Si thin films deposited by AACVD process

Salhi

Maalej

Deschanvres

et al. 2013

Materials Science and Engineering: B

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Friction characteristics of a brake friction material under different braking conditions

Kchaou

Sellami

Elleuch

et al. 2013

Materials & Design (1980-2015)

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Novel non-toxic and red luminescent sensor based on Eu3+:Y2Ti2O7/SiO2 nano-powder for latent fingerprint detection

Saif

Shebl

Nabeel

et al. 2015

Sensors and Actuators B: Chemical

102

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Riadh Elleuch

Enhanced up-conversion and temperature-sensing behaviour of Er³⁺ and Yb³⁺ co-doped Y₂Ti₂O₇ by incorporation of Li⁺ ions

Study of the interaction between microstructure, mechanical and tribo-performance of a commercial brake lining material

Structural and luminescence correlation of annealed Er-ZnO/Si thin films deposited by AACVD process

Friction characteristics of a brake friction material under different braking conditions

Novel non-toxic and red luminescent sensor based on Eu3+:Y2Ti2O7/SiO2 nano-powder for latent fingerprint detection

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Riadh Elleuch

Enhanced up-conversion and temperature-sensing behaviour of Er3+ and Yb3+ co-doped Y2Ti2O7 by incorporation of Li+ ions

Study of the interaction between microstructure, mechanical and tribo-performance of a commercial brake lining material

Structural and luminescence correlation of annealed Er-ZnO/Si thin films deposited by AACVD process

Friction characteristics of a brake friction material under different braking conditions

Novel non-toxic and red luminescent sensor based on Eu3+:Y2Ti2O7/SiO2 nano-powder for latent fingerprint detection

Contact Info

Product

Resources

About

Enhanced up-conversion and temperature-sensing behaviour of Er³⁺ and Yb³⁺ co-doped Y₂Ti₂O₇ by incorporation of Li⁺ ions