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J. Ge, S. Cao, S. Shen, J. Zhang, The transport properties in antimony doped iron selenide Fe(Se1-xSbx)0.92 system, Cryogenics, 51(6). 253-256. 2011.

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Article

Time Dependence of the Resistivity of the Fe-Sb System at Room Temperature

1School of physics, Sebha University, Libya


International Journal of Physics. 2018, Vol. 6 No. 2, 30-32
DOI: 10.12691/ijp-6-2-1
Copyright © 2018 Science and Education Publishing

Cite this paper:
T. M. Fayez, W. A. M. Zeyara, F. M. A. Salem, H. M. A. Malek, M. M. A. Ahmed. Time Dependence of the Resistivity of the Fe-Sb System at Room Temperature. International Journal of Physics. 2018; 6(2):30-32. doi: 10.12691/ijp-6-2-1.

Correspondence to: T.  M. Fayez, School of physics, Sebha University, Libya. Email: tar.ahmad@sebhau.edu.ly

Abstract

In this paper, the synthesis, resistivity measurement, and X-ray diffraction of the Fe-Sb system are reported. The method of synthesis of the Fe-Sb system, which instigates the formation of the FeSb2 and FeSb phases between Fe grains at the interface, was found to cause a decrease in resistivity. The sample produced an anomalous result for resistivity behavior at room temperature, where a time-dependent change in the electrical resistivity was observed. This change can be expressed by the exponential function of time.

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