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Search name	Searched On	Run search
[in Journal: Nano] AND [Keyword: Thermopower] (1)	29 Mar 2025	Run
[in Journal: Journal of Circuits, Systems and Computers] AND [Keyword: Solid State] (1)	29 Mar 2025	Run
[in Journal: International Journal of Innovation Management] AND [Keyword: Health C... (1)	29 Mar 2025	Run
[in Journal: International Journal of Bifurcation and Chaos] AND [Keyword: Evaporat... (1)	29 Mar 2025	Run
[in Journal: Modern Physics Letters B] AND [Keyword: Solid State] (1)	29 Mar 2025	Run

articleNo Access
INFLUENCE OF COUPLING GEOMETRY AND DEPHASING ON THERMOELECTRIC PROPERTIES OF A C₆₀ MOLECULAR JUNCTION
Nano01 Aug 2014
Preview Abstract
Thermoelectric properties of a C₆₀ molecule coupled to three-dimensional metallic electrodes are studied using Green function formalism in linear response regime. A tight-binding model is used to investigate the effects of the dimerization and coupling geometry on the electrical conductance, thermopower and figure of merit. Increase of the contact points between the molecule and electrodes results in decrease of the number of the peaks of the electrical conductance because of the interference effects. In addition, oscillation of the thermopower is reduced in the multiple contacts. Results show that the increase of the contact points leads to the reduction of the figure of merit. Furthermore, the effect of the phase breaking scattering on the figure of merit is analyzed using the Büttiker probe method.