Enhanced time response and temperature sensing behavior of thermistor using Zn-doped CaTiO_3 nanoparticles 被引量：2

Enhanced time response and temperature sensing behavior of thermistor using Zn-doped CaTiO_3 nanoparticles

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摘要 In the present study, Zn-doped CaTiO_3 nanocrystalline was synthesized to study the thermistor behavior with temperature. The X-ray powder diffraction analysis showed the formation of a single-phase orthorhombic structure at room temperature. The electrical resistance of the Zn-doped CaTiO_3 increased with increasing doping concentration and decreased at higher measuring temperature, showing a negative temperature coefficient of resistance(NTCR) behavior. Different thermistor parameters were calculated using Steinhart–Hart equations, whilst time domain analysis confirmed faster response towards applied voltage. In the present study, Zn-doped CaTiO3 nanocrystalline was synthesized to study the thermistor behavior with temperature. The X-ray powder diffraction analysis showed the formation of a single-phase orthorhombic structure at room temperature. The electrical resistance of the Zn-doped CaTiO3 increased with increasing doping concentration and decreased at higher measuring temperature, showing a negative temperature coefficient of resistance （NTCR） behavior. Different thermistor parameters were calculated using Steinhart-Hart equations, whilst time domain analysis confirmed faster response towards applied voltage.

作者 Subhanarayan SAHOO

机构地区 Department of Electrical Engineering

出处《Journal of Advanced Ceramics》 SCIE CSCD 2018年第2期99-108,共10页 先进陶瓷（英文）

关键词 MULTIFERROIC X-ray diffraction (XRD) electrical properties CONDUCTIVITY impedance spectroscopy NTCR thermistor multiferroic X-ray diffraction （XRD） electrical properties conductivity impedancespectroscopy NTCR thermistor

分类号 TQ [化学工程]

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