Nanocrystalline and bulk Li_(2)TiO_(3) having monoclinic structure were prepared by mechanical alloying as well as conventional ceramic route.Complex impedance analysis in the frequency range of 100 Hz-1 MHz over a wi...Nanocrystalline and bulk Li_(2)TiO_(3) having monoclinic structure were prepared by mechanical alloying as well as conventional ceramic route.Complex impedance analysis in the frequency range of 100 Hz-1 MHz over a wide range of temperature(50-500℃)indicates the presence of grain boundary effect along with the bulk contribution.The frequency-dependent conductivity plots exhibit power law dependence,suggesting three types of conduction in the material:low-frequency(100 Hz-1 kHz)conductivity showing long-range translational motion of electrons(frequency independent),mid-frequency(1-10 kHz)conductivity showing short-range hopping of charge carriers and high-frequency(10 kHz-1 MHz)conductivity showing conduction due to localized orientation of hopping mechanism.The electrical conductivity measurement of nanocrystalline and bulk Li_(2)TiO_(3) with temperature shows the negative temperature coefficient of resistance(NTCR)behavior.The activation energy(0.77 eV for nano sample and 0.88 eV for bulk sample)study shows the conduction mechanism in both samples.The low activation energies of the samples suggest the presence of singly ionized oxygen vacancies in the conduction process.展开更多
基金We thank the Board of Research in Fusion Science and Technology(BRFST),Institute for Plasma Research Gandhinagar India for support of the research(Grant No.NFP/MAT/F10-01).
文摘Nanocrystalline and bulk Li_(2)TiO_(3) having monoclinic structure were prepared by mechanical alloying as well as conventional ceramic route.Complex impedance analysis in the frequency range of 100 Hz-1 MHz over a wide range of temperature(50-500℃)indicates the presence of grain boundary effect along with the bulk contribution.The frequency-dependent conductivity plots exhibit power law dependence,suggesting three types of conduction in the material:low-frequency(100 Hz-1 kHz)conductivity showing long-range translational motion of electrons(frequency independent),mid-frequency(1-10 kHz)conductivity showing short-range hopping of charge carriers and high-frequency(10 kHz-1 MHz)conductivity showing conduction due to localized orientation of hopping mechanism.The electrical conductivity measurement of nanocrystalline and bulk Li_(2)TiO_(3) with temperature shows the negative temperature coefficient of resistance(NTCR)behavior.The activation energy(0.77 eV for nano sample and 0.88 eV for bulk sample)study shows the conduction mechanism in both samples.The low activation energies of the samples suggest the presence of singly ionized oxygen vacancies in the conduction process.
