Add to ORKGThermal conductivities of polycrystalline thermoelectric materials are satisfactorily calculated by replacing the commonly used Casimir model (freqeuncy-independent) with grain boundary dislocation strain model (frequency-dependent) of Klemens. It is demonstrated that the grain boundaries are better described as a collection of dislocations rather than perfectly scattering interfaces
A theory for conduction electron scattering by inhomogeneous crystal lattice strains is developed, b...
© 2021 Elsevier Ltd. Manipulation of thermal transport properties by defect engineering is an import...
Ideal thermoelectric materials should possess low thermal conductivity j along with high electrical ...
Thermal conductivities of polycrystalline thermoelectric materials are satisfactorily calculated by ...
Thermal conductivities of polycrystalline thermoelectric materials are satisfactorily calculated by ...
Reducing lattice thermal conductivity (κ_l) of a thermoelectric material is one of the most popular ...
Reducing lattice thermal conductivity (κ_l) of a thermoelectric material is one of the most popular ...
By 1950, an explicit effort had been launched to use lattice thermal conductivity measurements in th...
The scattering of thermal phonons by extended defects in dielectric crystals has been observed throu...
The scattering of thermal phonons by extended defects in dielectric crystals has been observed throu...
The picture of a grain boundary as a periodic array of dislocations implies the occurrence of phonon...
The thermodynamic theory of dislocation/grain boundary interaction, including dislocation pileup aga...
Recently, several creative processing techniques yielded thermoelectrics with reduced thermal conduc...
Office of Naval Research; Xiamen University of China; Specialized Research Fund [20090121120028]; Na...
Recently, several creative processing techniques yielded thermoelectrics with reduced thermal conduc...
A theory for conduction electron scattering by inhomogeneous crystal lattice strains is developed, b...
© 2021 Elsevier Ltd. Manipulation of thermal transport properties by defect engineering is an import...
Ideal thermoelectric materials should possess low thermal conductivity j along with high electrical ...
Thermal conductivities of polycrystalline thermoelectric materials are satisfactorily calculated by ...
Thermal conductivities of polycrystalline thermoelectric materials are satisfactorily calculated by ...
Reducing lattice thermal conductivity (κ_l) of a thermoelectric material is one of the most popular ...
Reducing lattice thermal conductivity (κ_l) of a thermoelectric material is one of the most popular ...
By 1950, an explicit effort had been launched to use lattice thermal conductivity measurements in th...
The scattering of thermal phonons by extended defects in dielectric crystals has been observed throu...
The scattering of thermal phonons by extended defects in dielectric crystals has been observed throu...
The picture of a grain boundary as a periodic array of dislocations implies the occurrence of phonon...
The thermodynamic theory of dislocation/grain boundary interaction, including dislocation pileup aga...
Recently, several creative processing techniques yielded thermoelectrics with reduced thermal conduc...
Office of Naval Research; Xiamen University of China; Specialized Research Fund [20090121120028]; Na...
Recently, several creative processing techniques yielded thermoelectrics with reduced thermal conduc...
A theory for conduction electron scattering by inhomogeneous crystal lattice strains is developed, b...
© 2021 Elsevier Ltd. Manipulation of thermal transport properties by defect engineering is an import...
Ideal thermoelectric materials should possess low thermal conductivity j along with high electrical ...