Making use of a generalized Green’s function technique and Landauer formalism, the temperature depended current-voltage (I-V) characteristics of C60 molecule, sandwiched between two metallic electrodes are numerically investigated. In addition, the influence of the electron-phonon coupling strength on the electronic properties of the molecule is studied. The I-V characteristics of the molecule are determined in two temperature limits, T=3K and T=300K. Our results indicate that the molecule primarily acts as a semiconductor in lower temperatures but moves toward becoming an ohmic-like conductor when the temperature increased to the higher magnitudes.
Ketabi,S , Mozafari,E and Shahtahmasebi,N . (2019). Temperature dependence of I-V characteristics of C60 molecule. Iranian Journal of Physics Research, 10(1), 64-64.
MLA
Ketabi,S , , Mozafari,E , and Shahtahmasebi,N . "Temperature dependence of I-V characteristics of C60 molecule", Iranian Journal of Physics Research, 10, 1, 2019, 64-64.
HARVARD
Ketabi S, Mozafari E, Shahtahmasebi N. (2019). 'Temperature dependence of I-V characteristics of C60 molecule', Iranian Journal of Physics Research, 10(1), pp. 64-64.
CHICAGO
S Ketabi, E Mozafari and N Shahtahmasebi, "Temperature dependence of I-V characteristics of C60 molecule," Iranian Journal of Physics Research, 10 1 (2019): 64-64,
VANCOUVER
Ketabi S, Mozafari E, Shahtahmasebi N. Temperature dependence of I-V characteristics of C60 molecule. Iranian Journal of Physics Research. 2019;10(1):64-64 (In Persian).