Abstract: A one-dimensional random nanocrystalline chain model is established. A dc electron-phonon-field conductance model of electron tunneling transfer is set up, and a new dc conductance formula in one-dimensional nanometer systems is derived. By calculating the dc conductivity, the relationship among the electric field, temperature and conductivity is analysed, and the effect of the crystalline grain size and the distortion of interfacial atoms on the dc conductance is discussed. The result shows that the nanometer system appears the characteristic of negative differential dependence of resistance and temperature at low temperature. The dc conductivity of nanometer systems varies with the change of electric field and trends to rise as the crystalline grain size increases and to decrease as the distorted degree of interfacial atoms increases.
(Theory of electronic transport; scattering mechanisms)
引用本文:
SONG Yi-Pu; XU Hui;LUO Feng. Direct Current Hopping Conductivity in One-Dimensional Nanometer Systems[J]. 中国物理快报, 2003, 20(2): 277-280.
SONG Yi-Pu, XU Hui, LUO Feng. Direct Current Hopping Conductivity in One-Dimensional Nanometer Systems. Chin. Phys. Lett., 2003, 20(2): 277-280.