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Thermal conductivity of phase-change material Ge
2
Sb
2
Te
5
Ho Ki Lyeo
,
David G. Cahill
, Bong Sub Lee
,
John R. Abelson
, Min Ho Kwon
, Ki Bum Kim
, Stephen G. Bishop
, Byung Ki Cheong
Materials Science and Engineering
Materials Research Lab
Mechanical Science and Engineering
Physics
Grainger College of Engineering
Center for Global Studies
European Union Center
Nuclear, Plasma, and Radiological Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
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Dive into the research topics of 'Thermal conductivity of phase-change material Ge
2
Sb
2
Te
5
'. Together they form a unique fingerprint.
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Keyphrases
Thermal Conductivity
100%
Cubic Phase
100%
Phase Change Material
100%
Ge2Sb2Te5
100%
Low Thermal Conductivity
66%
Temperature Range
33%
Vibrational Energy
33%
Time-domain Thermoreflectance
33%
Thermal Annealing
33%
In Films
33%
Thermal Transport
33%
Minimum Thermal Conductivity
33%
Crystallization
33%
Atomic Scale
33%
Amorphous Phase
33%
Hexagonal Phase
33%
Laser Processing
33%
Increased Temperature
33%
Random Walk
33%
Large Degree
33%
Phase Transformation
33%
Short Time Scale
33%
Electronic Contribution
33%
Conductivity Increase
33%
Engineering
Thermal Conductivity
100%
Phase Change Material
100%
Low Thermal Conductivity
50%
Thin Films
25%
Time Domain
25%
Temperature Range
25%
Amorphous Phase
25%
Laser Processing
25%
Increasing Temperature
25%
Electronic Contribution
25%
Material Science
Thermal Conductivity
100%
Phase Change Material
100%
Thin Films
16%
Annealing
16%
Film
16%
Laser Processing
16%