Abstract: Bismuth tellurite and bismuth borotellurite samples were synthesized and structure-property correlations were carried out by density, X-ray diffraction, dielectric measurements, differential scanning calorimetry, infrared, Raman and 11B Magic Angle Spinning Nuclear Magnetic Resonance studies. Low concentration of Bi2O3 (5-mol%) forms bismuth tellurite glass while higher concentration of Bi2O3 (10 and 20-mol%) produces anti-glasses on splat-quenching the melt. The short-range structure of bismuth borotellurite glasses consists of TeO4, TeO3, BO4 and BO3 structural units. Raman studies show that Te O coordination (NTe O) in bismuth tellurite glass and anti-glass samples decreases from 3.48 to 3.43 with increase in Bi2O3 concentration from 5 to 20-mol%. On incorporating 20-mol% of B2O3 into bismuth tellurite sample, NTe O decreases to 3.33 and the glass forming ability enhances significantly as compared to that of bismuth tellurite system. On increasing B2O3 upto 40-mol%, the B O coordination decreases steadily. The addition of Bi2O3 produces the structural transformation: TeO4 ? TeO3 in Bi2O3-TeO2 system while B2O3 produces the structural transformation: BO4 ? BO3 in Bi2O3-B2O3-TeO2 series without significantly modifying NTe O. The glass transition temperature increases from 371 °C to 410 °C on increasing B2O3 from 20 to 40-mol%, this increase is due to increase in the concentration of stronger B O linkages at the expense of weaker Te O bonds. Decrease in the dielectric constant from 24.1 to 19.3 with B2O3 concentration is due to decrease in density while the polarizability of bismuth borotellurite series remains constant.

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