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- Thermoelectric effect - Wikipedia
A thermoelectric device creates a voltage when there is a different temperature on each side Conversely, when a voltage is applied to it, heat is transferred from one side to the other, creating a temperature difference
- Thermoelectric Properties of Materials - Northwestern University
The thermoelectric performance (for either power generation or cooling) depends on the efficiency of the thermoelectric material for transforming heat into electricity
- Thermoelectrics - Latest research and news | Nature
Thermoelectrics are materials that can generate electricity from the application of a temperature gradient, or vice versa, through the thermoelectric effect
- Thermoelectricity | Physics Energy Conversion | Britannica
thermoelectricity, direct conversion of heat into electricity or electricity into heat through two related mechanisms, the Seebeck effect and the Peltier effect When two metals are placed in electric contact, electrons flow out of the one in which the electrons are less bound and into the other
- Thermoelectric Effect | Efficiency, Applications Theory
The thermoelectric effect is a fascinating phenomenon in physics where a temperature difference within a material or between different materials can generate an electric voltage, and vice versa
- Comprehensive overview on thermoelectricity −Materials, applications . . .
The technology known as “thermoelectricity” (TE) is an intrinsic property of materials that provides them the ability to convert thermal energy into electrical energy and vice-versa
- Understanding Thermoelectricity: Key Effects and Applications
Thermoelectricity is the direct conversion of temperature differences into electric energy This phenomenon is based on the way some materials behave when they experience changes in temperature The effects that help in this conversion were first noticed many years ago
- Explained: Thermoelectricity | MIT News | Massachusetts Institute of . . .
It can refer either to the way a temperature difference between one side of a material and the other can produce electricity, or to the reverse: the way applying an electric current through a material can create a temperature difference between its two sides, which can be used to heat or cool things without combustion or moving parts
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