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Improved materials for thermoelectric conversion (generation)
Z. Dashevsky
, I. Drabkin
, V. Korotaev
, D. Rabinovich
Department of Materials Engineering
Research output
:
Contribution to conference
›
Paper
›
peer-review
7
Scopus citations
Overview
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Keyphrases
Improved Material
100%
Thermoelectric Materials
100%
Thermoelectric Conversion
100%
Mechanical Properties
50%
Thermal Conductivity
50%
Geometric Size
50%
Electrical Conductivity
50%
Conversion Efficiency
50%
Crystal Growth
50%
Seebeck Coefficient
50%
High Efficiency
50%
Efficiency Increase
50%
2-stage
50%
Environmentally Friendly
50%
Effective Material
50%
Optimal Technique
50%
Hostile Environment
50%
Thermoelectric Energy Conversion
50%
Energy Conversion Technologies
50%
Thermoelectric Properties
50%
High-crystalline
50%
Thermoelectric Efficiency
50%
Thermoelectric Figure of Merit
50%
Thermoelectric Generator
50%
Thermoelectric Power Generation
50%
Thermoelectric Legs
50%
Crystalline Perfection
50%
Engineering
Thermoelectrics
100%
Thermoelectric Materials
28%
Experimental Result
14%
Conversion Efficiency
14%
Power Generation
14%
Energy Conversion
14%
Thermal Conductivity
14%
Hostile Environment
14%
Figure of Merit
14%
Thermoelectric Energy Conversion
14%
Seebeck Coefficient
14%
Past Year
14%
Material Science
Thermoelectrics
100%
Thermoelectric Materials
25%
Thermal Conductivity
12%
Crystalline Material
12%
Electrical Resistivity
12%
Crystal Growth
12%
Chemical Engineering
Thermal Conductivity
100%