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Multiscale Thermal Property Measurements for Biomedical Applications
Harishankar Natesan
,
John C. Bischof
Mechanical Engineering
Office of Academic Clinical Affairs
Cellular Mechanisms of Cancer
Research output
:
Contribution to journal
›
Review article
›
peer-review
21
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Scopus citations
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Keyphrases
Biomedical Applications
100%
Biomaterials
100%
Thermal Conductivity
100%
Differential Scanning Calorimetry
100%
Thermal Conductivity Measurement
100%
Thermal Property Measurements
100%
Low Temperature
50%
Transplantation
50%
Cardiovascular Disease
50%
Sampling Weights
50%
Cancer Disease
50%
Calorimetric Measurements
50%
Temperature History
50%
Thermal Modeling
50%
Thermal Measurement
50%
Surrounding Medium
50%
Rate 1
50%
Bioheat Transfer
50%
Wide Temperature Range
50%
Metallic Nanoparticles
50%
Silicon-based
50%
Pump-probe
50%
Temperature Scanning
50%
Layered Tissue
50%
Scanning Rate
50%
Sample Mass
50%
Ultrafast Heating
50%
Rapid Heating Rate
50%
Nanoscale Thermometry
50%
Laser Flash Method
50%
Nanocalorimetry
50%
Focal Treatment
50%
Scanning Probe Methods
50%
Transfer Based
50%
Innovation in Healthcare
50%
Engineering
Multiscale
100%
Biomedical Application
100%
Thermal Conductivity
100%
Microscale
50%
Nanoscale
50%
Anisotropic
25%
Low-Temperature
25%
Temperature Range
25%
Conductivity Measurement
25%
Spatial Scale
25%
Rapid Heating
25%
Sample Mass
25%
Heating Rate
25%
Scanning Rate
25%
Metal Nanoparticle
25%
Health Care
25%
Material Science
Thermal Property
100%
Thermal Conductivity
100%
Biomaterial
50%
Differential Scanning Calorimetry
50%
Silicon
25%
Metal Nanoparticle
25%
Physics
Thermal Conductivity
100%
Nanoscale
50%
Differential Scanning Calorimetry
50%
Thermal Measurement
50%
Nanoparticle
25%
Bioheat Transfer
25%
Thermal Design
25%
Chemical Engineering
Thermal Conductivity
100%
Differential Scanning Calorimetry
50%
Cryogenics
25%
Heating Rate
25%
Metal Nanoparticle
25%