Dawalappa B. Husenkhan scite author profile

Objectives: Investigation of electrical transport properties of glass system in the composition (P 2 O 5 ) 0.65−x (B 2 O 3 ) 0.1 (ZnO) 0.25 (Li 2 O) x where x=0.10, 0.15, 0.20, 0.25, 0.30, 0.35 and 0.40 and establish the conduction mechanisms. Methods: Glasses were synthesized using the standard melt quenching technique at 1473K. The samples were confirmed to be amorphous through XRD studies. An independent measurement of dc conductivity was carried out for temperature range 300-620K, by following two probe method. Findings: Conductivity of the present glasses is found to be of the order of 10 -3 (Ω m) -1 which is higher than the reported values for lithium-ion solid-state electrolytes. Conductivity variation with temperature obeyed Mott's Small Polaron Hopping at high temperatures and Variable Range Hopping at low temperatures. SPH model fits to the conductivity gave activation energies in the range 58-409 meV. VRH model fits gave density of states at Fermi level of the order of 10 23 eV -1 m -3 . The nano-crystallite phases identified and determined size found to be in the range 5-37 nm and considered to be a glass-nanocomposites. Novelty/Applications: For the first time, zinc-lithium-borophosphate glasses are investigated for conduction mechanisms. Activation energy and density of states at the Fermi level are determined. At high temperature Mott's SPH model and at low temperature Mott's VRH model are found to be suitable to explain conductivity of these glasses.

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Electrical transport studies in vanado-zinc-boro-phosphate glass nano composites

Husenkhan

Sankarappa

Malge

et al. 2019

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Dawalappa B. Husenkhan

Dielectric and AC conductivity studies in Li2O doped vanado-zinc-boro-phosphate glass nano composites

DC Conductivity of Lithium-Zinc-Boro- Phosphate Glasses

Electrical transport studies in vanado-zinc-boro-phosphate glass nano composites

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