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Graphene-based antidots for thermoelectric applications
Karamitaheri, H ; Sharif University of Technology | 2011
849
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- Type of Document: Article
- DOI: 10.1149/2.025112jes
- Publisher: 2011
- Abstract:
- The low temperature thermoelectric properties of hydrogen-passivated graphene-based antidot lattices are theoretically investigated. Calculations are performed using density functional theory in conjunction with the Landauer formula to obtain the ballistic transport coefficients. Antidot lattices with hexagonal, triangular and rectangular antidot shapes are studied. Methods to reduce the thermal conductance and to increase the thermoelectric power factor of such structures are studied. Our results indicate that triangular antidot lattices have the smallest thermal conductance due to longer boundaries, the smallest distance between the neighboring antidots, and the armchair edges. This structure has the largest electronic band-gap and its figure of merit is the highest among other antidots in a wide range of temperature
- Keywords:
- Antidot lattice ; Antidots ; Ballistic transports ; Electronic band gaps ; Landauer formula ; Low temperatures ; Thermal conductance ; Thermoelectric application ; Thermoelectric power factors ; Thermoelectric properties ; Triangular antidot ; Ballistics ; Density functional theory ; Electric power factor ; Hydrogen ; Passivation ; Thermal conductivity ; Thermoelectric power ; Graphene
- Source: Journal of the Electrochemical Society ; Volume 158, Issue 12 , 2011 , Pages K213-K216 ; 00134651 (ISSN)
- URL: http://jes.ecsdl.org/content/158/12/K213