The Impact of Temperature and Magnetic Field on Physical Field on Physical Parameters of the Strontium-Containing Heterometallic Coordination Compound of Copper (II)

O. Osadchuk, V. Martyniuk, I. Osadchuk, O. Semenova, T. Sydoruk, M. Evseeva
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Abstract

A new material of strontium di[N,N'-bis(salicylidene)thiosemicarbazidatocuprate(II)] tetrahydride with composition Sr[CuL']2•4H2O, where L'=C15H10N3O2S has been synthesized. The molar mass of the obtained and dehydrated complex compound Sr[Cu(C15H10N3O2S)]2 was 807.37 g/mol and the number of valence electrons in one molecule was 210. A cylindrical specimen with mass of 0.1 g and volume of 17.67•10-9 m3 has been used in experimental studies.The basic physical parameters of the material have been experimentally measurements and theoretically calculated. The material has been proved to be a semiconductor. Dependences of specific conductivity, resistance, current density, charge carrier concentration and the Hall constant on temperature have been obtained.
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温度和磁场对物理场对铜的含锶异金属配位化合物物理参数的影响(ⅱ)
合成了一种合成物为Sr[CuL']2•4H2O (L'=C15H10N3O2S)的二[N,N'-双(水杨基)硫代氨基甲酸酯(II)]四氢化锶新材料。得到的脱水配合物Sr[Cu(C15H10N3O2S)]2的摩尔质量为807.37 g/mol,一个分子的价电子数为210个。在实验研究中使用了质量为0.1 g,体积为17.67•10-9 m3的圆柱形试样。对材料的基本物理参数进行了实验测量和理论计算。这种材料已被证明是半导体。得到了比电导率、电阻、电流密度、载流子浓度和霍尔常数与温度的关系。
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