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Energy scavenging from ultra-low temperature gradients
Ravi Anant Kishore
, Brenton Davis
, Jake Greathouse
, Austin Hannon
, David Emery Kennedy
, Alec Millar
, Daniel Mittel
, Amin Nozariasbmarz
, Min Gyu Kang
, Han Byul Kang
, Mohan Sanghadasa
, Shashank Priya
Research output
:
Contribution to journal
›
Article
›
peer-review
33
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Scopus citations
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Keyphrases
Energy Scavenging
100%
Ultra-low Temperature
100%
Thermal Energy Harvesting
100%
Low Temperature Gradient
100%
Power Density
66%
Temperature Difference
66%
Energy Harvesting System
66%
Cm(III)
66%
Generated Power
33%
Natural Resources
33%
Active Materials
33%
Environmental Concern
33%
Unit Volume
33%
Temperature Gradient
33%
Heat Source
33%
Ambient Conditions
33%
Transformative Value
33%
Density Increase
33%
Global Warming
33%
Heat Sink
33%
Device-independent
33%
Waste Heat
33%
Renewable Energy Generation
33%
Natural Waste
33%
Thermomagnetic Effect
33%
Near-room Temperature
33%
Large Temperature Gradient
33%
Low-grade Heat Harvesting
33%
Engineering
Energy Harvesting
100%
Thermal Gradient
100%
Cryogenic Temperature
100%
Temperature Gradients
100%
Thermal Energy
80%
Power Density
40%
Renewable Conversion
20%
Ambient Condition
20%
Environmental Concern
20%
Active Material
20%
Generate Electricity
20%
Room Temperature
20%
Natural Resources
20%
Global Warming
20%
Actuator
20%
Heat Sources
20%
Physics
Temperature Gradients
100%
Cryogenic Temperature
100%
Energy Harvesting
100%
Heat Sources
20%
Heat Sink
20%
Thermomagnetic Effect
20%
Room Temperature
20%
Global Warming
20%
Renewable Energy
20%
Actuator
20%
Material Science
Energy Harvesting
100%
Density
40%
Chemical Engineering
Thermal Gradient
100%
Renewable Energy
33%