Исследование магнитоимпедансных свойств наночастиц CuO, полученных в плазме дугового разряда низкого давления

Журнал технической физики Pub Date : 2023-01-01 DOI:10.21883/jtf.2023.08.55980.110-23

Андрей Владимирович Ушаков, Л.Ю. Федоров

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Abstract

CuO nanoparticles obtained in a low-pressure arc discharge plasma followed by annealing in an oxygen atmosphere at 500°C were studied by X-ray diffraction and transmission electron microscopy. The formation of irregularly shaped nanoparticles in the size range of 5–30 nm was found. The Rietveld refinement confirmed the formation of a monoclinic CuO phase with an average crystallite size of ~21 nm. The temperature dependences of the magnetization and permittivity of CuO nanoparticles have been studied. They show antiferromagnetic behavior with a Neel temperature of 230 K and frequency-dependent dispersion behavior in the temperature range of 100–200 K at an external magnetic field induction of 0–1.3 T. The dielectric relaxation mechanism is analyzed and found to follow the Arrhenius behavior. It is shown that hopping conductivity with a variable hop length more accurately describes charge transport in CuO nanoparticles. A magnetodielectric response of about 2.5 was observed at a frequency of 12 kHz at a temperature of 150 K in a magnetic field of 1.3 T.

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研究低压等离子体CuO纳米粒子的磁阻抗特性

用x射线衍射和透射电镜研究了低压电弧放电等离子体中制备的CuO纳米颗粒，并在500℃的氧气气氛中退火。在5 ~ 30 nm范围内形成了形状不规则的纳米颗粒。Rietveld细化证实了单斜CuO相的形成，平均晶粒尺寸为~21 nm。研究了氧化铜纳米粒子的磁化强度和介电常数与温度的关系。它们在Neel温度为230 K时表现出反铁磁行为，在0-1.3 t的外磁场感应下，在100-200 K的温度范围内表现出频率相关的色散行为。结果表明，随跳跃长度变化的跳跃电导率能更准确地描述CuO纳米粒子中的电荷输运。在温度为150 K、磁场为1.3 T、频率为12 kHz时，观察到磁介电响应约为2.5。

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Журнал технической физики

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