Structure and Electrical Properties of Con(CoO)100 – n Thin-Film Composites

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED
A. V. Sitnikov, V. A. Makagonov, Y. E. Kalinin, S. B. Kushchev, V. A. Foshin
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Abstract

The electrical properties of Con(CoO)100 – n composite thin films obtained by ion-beam sputtering of a composite target in an argon atmosphere and a mixed atmosphere of argon and oxygen (98% Ar + 2% O2) have been studied. It has been established that if oxygen is introduced into the deposition chamber, the position of the percolation threshold shifts towards lower concentrations of the metal phase. It is associated with the special morphology of the films, when small metal Co nanoparticles are located along the boundaries of larger CoO particles, as well as a decrease in the size of inclusions of the metal phase. Studies of the temperature dependences of the electrical resistivity of synthesized Con(CoO)100 – n films have shown that when the metal phase content is up to the percolation threshold the dominant mechanism of charge transfer in the temperature range of 80−140 K is the variable range hopping mechanism of conduction through localized states near the Fermi level, replaced by the nearest neighbors conductivity in the temperature range of 140–300 K. For beyond the percolation threshold Con(CoO)100 – n thin films, the conductivity is determined by a network of metal granules and is characterized by a positive temperature coefficient of electrical resistance.

Abstract Image

Con(CoO)100 - n 薄膜复合材料的结构和电气性能
我们研究了在氩气氛和氩氧混合气氛(98% Ar + 2% O2)中通过离子束溅射复合靶获得的 Con(CoO)100 - n 复合薄膜的电气特性。研究发现,如果在沉积室中引入氧气,渗流阈值的位置就会向较低浓度的金属相移动。这与薄膜的特殊形态有关,即小的金属 Co 纳米颗粒位于较大的 CoO 颗粒的边界,以及金属相夹杂物的尺寸减小。对合成的 Con(CoO)100 - n 薄膜的电阻率随温度变化的研究表明,当金属相含量达到渗滤阈值时,在 80-140 K 的温度范围内,电荷转移的主要机制是通过费米级附近的局部态进行传导的变程跳变机制,而在 140-300 K 的温度范围内,这种机制被近邻传导所取代。对于超过渗滤阈值的 Con(CoO)100 - n 薄膜,其导电性由金属颗粒网络决定,并以正电阻温度系数为特征。
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来源期刊
Technical Physics
Technical Physics 物理-物理:应用
CiteScore
1.30
自引率
14.30%
发文量
139
审稿时长
3-6 weeks
期刊介绍: Technical Physics is a journal that contains practical information on all aspects of applied physics, especially instrumentation and measurement techniques. Particular emphasis is put on plasma physics and related fields such as studies of charged particles in electromagnetic fields, synchrotron radiation, electron and ion beams, gas lasers and discharges. Other journal topics are the properties of condensed matter, including semiconductors, superconductors, gases, liquids, and different materials.
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