Add to ORKGHigh values of the thermoelectric figure of merit are predicted in quasi-one-dimensional organic crystals, determined by the interference of two electron-phonon interaction mechanisms. The conditions for the realization of such high values are analyzed and discussed. 1
Previously, it has been predicted that nanostructured crystals of tetrathiotetracene iodide are very...
We present a theoretical analysis of quasicrystals (QCs) as potential thermoelectric materials. We c...
Xiamen University of China; U. S. Department of Energy, Division of Materials, Office of Basic Energ...
The peculiarities of the thermopower (Seebeck coefficient) S in some quasi-one-dimensional organic c...
The request of thermoelectric materials for low-power and flexible applications fosters the investig...
Thermoelectric properties of quasi-one-dimensional TTT(TCNQ)2 organic crystals are investigated in o...
More than 70 % of the primary energy consumed world-wide is wasted, mostly as heat below 100 °C[1]. ...
Thermoelectrics represent a unique opportunity in energy to directly convert thermal energy or secon...
Low-dimensional electronic and glassy phononic transport are two important ingredients of highly eff...
The linear thermoelectric properties of molecular junctions are theoretically studied close to room...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
The nature of cohesive energies in organic crystals will be reviewed, with its expression in terms o...
We focus on the theoretical approaches aimed to analyze thermoelectric properties at the nanoscale. ...
What kind of information on the electrons' organisation in solids is yielded by measuring their ther...
While the phenomenon of thermoelectricity is well understood from the physical point of view, the ch...
Previously, it has been predicted that nanostructured crystals of tetrathiotetracene iodide are very...
We present a theoretical analysis of quasicrystals (QCs) as potential thermoelectric materials. We c...
Xiamen University of China; U. S. Department of Energy, Division of Materials, Office of Basic Energ...
The peculiarities of the thermopower (Seebeck coefficient) S in some quasi-one-dimensional organic c...
The request of thermoelectric materials for low-power and flexible applications fosters the investig...
Thermoelectric properties of quasi-one-dimensional TTT(TCNQ)2 organic crystals are investigated in o...
More than 70 % of the primary energy consumed world-wide is wasted, mostly as heat below 100 °C[1]. ...
Thermoelectrics represent a unique opportunity in energy to directly convert thermal energy or secon...
Low-dimensional electronic and glassy phononic transport are two important ingredients of highly eff...
The linear thermoelectric properties of molecular junctions are theoretically studied close to room...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
The nature of cohesive energies in organic crystals will be reviewed, with its expression in terms o...
We focus on the theoretical approaches aimed to analyze thermoelectric properties at the nanoscale. ...
What kind of information on the electrons' organisation in solids is yielded by measuring their ther...
While the phenomenon of thermoelectricity is well understood from the physical point of view, the ch...
Previously, it has been predicted that nanostructured crystals of tetrathiotetracene iodide are very...
We present a theoretical analysis of quasicrystals (QCs) as potential thermoelectric materials. We c...
Xiamen University of China; U. S. Department of Energy, Division of Materials, Office of Basic Energ...