Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; Phonon spectrum; First-principles calculation; ShengBTE;
مقالات ISI هدایت حرارتی رشته (ترجمه نشده)
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Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; Molecular dynamics; Green-Kubo formalism; Heat current autocorrelation function; Calcite;
Keywords: هدایت حرارتی رشته; Phonon transport; Phononic crystal nanostructures; Lattice thermal conductivity; Boltzmann transport equation; Discrete ordinates method;
Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; Graphene; Nanostructures;
Keywords: هدایت حرارتی رشته; Si content; Higher manganese silicides; Thermoelectric; Density of states effective mass; Lattice thermal conductivity;
Keywords: هدایت حرارتی رشته; High-throughput; Accelerated materials development; Quasi-harmonic approximation; Lattice thermal conductivity;
Keywords: هدایت حرارتی رشته; Bismuth antimony telluride; Liquid-phase sintering; Sb precipitation; Lattice thermal conductivity; Phonon scattering; Thermoelectric;
Keywords: هدایت حرارتی رشته; First principles; Boron silicide; Phonon; Lattice thermal conductivity; Piezoelectricity;
Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; Phonon spectrum; Density functional theory;
Keywords: هدایت حرارتی رشته; C. Mechanical properties; D. Borides; Stability; Lattice thermal conductivity; Pressure effect
Keywords: هدایت حرارتی رشته; α; Seebeck coefficient; γ; acoustic phonon Grüneisen parameter; θD; Debye temperature; κ; total thermal conductivity; κlattice; lattice thermal conductivity; κC, κe; charge-carrier thermal conductivity; μ; mobility; η; efficiency; Ï; density; Ï
Keywords: هدایت حرارتی رشته; Bismuth telluride nanoprism-assembled films; Lattice thermal conductivity; Monte-Carlo simulation; Effective medium approximation;
Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; Nanocrystalline; Strain;
Keywords: هدایت حرارتی رشته; Tungsten; Lattice thermal conductivity; Grain boundary; Molecular dynamics simulation;
Keywords: هدایت حرارتی رشته; Thermal expansivity; Lattice thermal conductivity; Mantle convection
Quantitative analysis on the influence of Nb substitutional doping on electronic and thermal properties of n-type Cu0.008Bi2Te2.7Se0.3 alloys
Keywords: هدایت حرارتی رشته; Thermoelectric; Single parabolic band model; Bipolar thermal conductivity; Lattice thermal conductivity; Callaway model;
Synergetic effect of grain size reduction on electronic and thermal transport properties by selectively-suppressed minority carrier mobility and enhanced boundary scattering in Bi0.5Sb1.5Te3 alloys
Keywords: هدایت حرارتی رشته; Thermoelectrics; Nanograin; Bi0.5Sb1.5Te3; Bipolar conduction; Minority carrier mobility; Lattice thermal conductivity;
Pyroelectric effect and lattice thermal conductivity of InN/GaN heterostructures
Keywords: هدایت حرارتی رشته; InN/GaN heterostructures; Built-in-polarization; Lattice thermal conductivity; Pyroelectricity; Transition temperature;
Effect of density functionals on the vibrational and thermodynamic properties of Fe2VAl and Fe2TiSn compounds
Keywords: هدایت حرارتی رشته; Phonons; Exchange-correlation functionals; Lattice thermal conductivity; Lattice dynamics;
Lattice thermodynamic behavior in nuclear fuel ThO2 from first principles
Keywords: هدایت حرارتی رشته; First-principle; Thermodynamic behavior; Acoustic and optical phonon branches; Lattice thermal conductivity;
Predicting thermoelectric performance of eco-friendly intermetallic compound p-type CaMgSi from first-principles investigation
Keywords: هدایت حرارتی رشته; First principles; Lattice thermal conductivity; Thermoelectric properties; CaMgSi compound;
Substitution defect enhancing thermoelectric properties in CuInTe2
Keywords: هدایت حرارتی رشته; Cu1-xAgxInTe2; Solid solution; Lattice thermal conductivity; Point defect scattering;
Enhancing thermoelectric performance of (Cu1-xAgx)2Se via CuAgSe secondary phase and porous design
Keywords: هدایت حرارتی رشته; Thermoelectric performance; Cu2Se; CuAgSe; Pores; Lattice thermal conductivity;
Analysis of electronic, thermal, and thermoelectric properties of the half-Heusler CrTiSi material using density functional theory
Keywords: هدایت حرارتی رشته; Grüneisen parameter; Lattice thermal conductivity; Power factor; Seebeck coefficient;
Effect of Ga alloying on thermoelectric properties of InSb
Keywords: هدایت حرارتی رشته; Thermoelectric material; Isoelectronic substitution; Lattice thermal conductivity; Mass fluctuation; Strain field fluctuation;
Enhancing thermoelectric performance of FeNbSb half-Heusler compound by Hf-Ti dual-doping
Keywords: هدایت حرارتی رشته; Thermoelectric material; Dual-doping; Lattice thermal conductivity; Phonon scattering;
High thermoelectric performance balanced by electrical and thermal transport in tetrahedrites Cu12+xSb4S12Se
Keywords: هدایت حرارتی رشته; Thermoelectrics; Exsolution; Tetrahedrites; Lattice thermal conductivity;
High performance of n-type (PbS)1-x-y(PbSe)x(PbTe)y thermoelectric materials
Keywords: هدایت حرارتی رشته; Thermoelectric; PbS; Power factor; Point defect; Lattice thermal conductivity;
Enhanced thermoelectric performance in Ca-substituted Sr3SnO
Keywords: هدایت حرارتی رشته; Electronic structure; Bandgap; Electrical conductivity; Seebeck coefficient; Carrier relaxation time; Lattice thermal conductivity;
Origin of ultra-low lattice thermal conductivity in Cs2BiAgX6 (X=Cl, Br) and its impact on thermoelectric performance
Keywords: هدایت حرارتی رشته; First-principles calculations; Relaxation time; Lattice thermal conductivity; Bandgap; Spin-orbit coupling; Thermoelectrics;
Doping and band engineering by vanadium to enhance the thermoelectric performance in n-type Cu0.008Bi2Te2.7Se0.3
Keywords: هدایت حرارتی رشته; Bi2Te2.7Se0.3; Thermoelectric; Lattice thermal conductivity; Power factor; Doping;
Direct observation of vast off-stoichiometric defects in single crystalline SnSe
Keywords: هدایت حرارتی رشته; Thermoelectricity; Transmission electron microscopy; Interstitial defects; Off-stoichiometry; Lattice thermal conductivity; SnSe;
Enhanced thermoelectric performance via the solid solution formation: The case of pseudobinary alloy (Cu2Te)(Ga2Te3)3 upon Sb substitution for Cu
Keywords: هدایت حرارتی رشته; Thermoelectric performance; Solid solution formation; Pseudobinary alloy (Cu2Te)(Ga2Te3)3; Hall carrier concentration; Lattice thermal conductivity;
First-principles investigations of phase stability, mechanical, thermal and optical properties of Ti3(Al1-xSix)C2 solid solutions
Keywords: هدایت حرارتی رشته; Ti3(Al1-xSix)C2 solid solutions; Mechanical and optical properties; Lattice thermal conductivity; First-principles calculation;
Analytical insight into the lattice thermal conductivity and heat capacity of monolayer MoS2
Keywords: هدایت حرارتی رشته; Two dimensional transition-metal dichalcogenides; Monolayer MoS2; Lattice thermal conductivity; First-principles calculations; Acoustic phonon
Enhancement of figure of merit (ZT) by doping Bi in Mg2Si for energy harvesting applications
Keywords: هدایت حرارتی رشته; Electrical transport properties; Thermoelectric properties; Carrier concentration; Density functional theory; Lattice thermal conductivity; Electronic structure;
Molecular dynamics study of the influence of Sb-vacancy defects on the lattice thermal conductivity of crystalline CoSb3
Keywords: هدایت حرارتی رشته; Skutterudites; Sb vacancies; Lattice thermal conductivity
Effect of Cd isoelectronic substitution on thermoelectric properties of Zn0.995Na0.005Sb
Keywords: هدایت حرارتی رشته; ZnSb; Isoelectronic substitution; Lattice thermal conductivity; Thermoelectric properties;
Investigation into the extremely low thermal conductivity in Ba heavily doped BiCuSeO
Keywords: هدایت حرارتی رشته; Thermoelectrics; Spherical aberration-corrected transmission electron microscopy; Lattice thermal conductivity; Oxychalcogenide;
Phase stability, mechanical properties and lattice thermal conductivity of ceramic material (Nb1âxTix)4AlC3 solid solutions
Keywords: هدایت حرارتی رشته; Ceramic material; (Nb1âxTix)4AlC3 solid solutions; Elastic and mechanical properties; Lattice thermal conductivity; First-principles calculation;
Lattice thermal conductivity of LaSe
Keywords: هدایت حرارتی رشته; LaSe; Phonons; Heat capacity; Single-mode relaxation-time method; Lattice thermal conductivity
Doping effects on the thermoelectric properties of Cu-intercalated Bi2Te2.7Se0.3
Keywords: هدایت حرارتی رشته; Thermoelectric; Intercalation; Doping; Lattice thermal conductivity
Experimental study of thermal conductivity at high pressures: Implications for the deep Earth’s interior
Keywords: هدایت حرارتی رشته; Thermal conductivity; Deep Earth’s minerals; High pressure; Bridgmanite; Ferropericlase; Radiative conductivity; Optical properties; Lower mantle; Lattice thermal conductivity
Approximate lattice thermal conductivity of MAX phases at high temperature
Keywords: هدایت حرارتی رشته; MAX phase; Lattice thermal conductivity; Minimal thermal conductivity; Temperature dependent thermal conductivity
Cu addition and its role in thermoelectric properties and nanostructuring in the series compounds (InSb)nCum
Keywords: هدایت حرارتی رشته; Thermoelectric properties; Nanostructuring; Series compounds (InSb)nCum; Lattice thermal conductivity
Nanoscale size dependence parameters on lattice thermal conductivity of Wurtzite GaN nanowires
Keywords: هدایت حرارتی رشته; Lattice thermal conductivity; GaN nanowires; Phonon scattering; Lattice defects; Dislocation density
Bent-shaped plumes and horizontal channel flow beneath the 660 km discontinuity
Keywords: هدایت حرارتی رشته; mantle plumes; phase transitions; temperature dependent viscosity; thermal expansivity; lattice thermal conductivity
Improved calculation of vibrational mode lifetimes in anharmonic solids – Part II: Numerical results
Keywords: هدایت حرارتی رشته; Mode lifetime; Lattice thermal conductivity; Liouvillian; Recursion method; Green–Kubo
Improved calculation of vibrational mode lifetimes in anharmonic solids-Part I: Theory
Keywords: هدایت حرارتی رشته; 05.20.ây; 05.40.âa; 05.50.Cd; 44.90.+c; 63.20.âe; 63.20.Ry; Mode lifetime; Lattice thermal conductivity; Liouvillian; Recursion method; Green-Kubo;
Dynamical consequences in the lower mantle with the post-perovskite phase change and strongly depth-dependent thermodynamic and transport properties
Keywords: هدایت حرارتی رشته; lower mantle dynamics; post-perovskite; phase transitions; thermal expansivity; lattice thermal conductivity