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"Thermal transport"

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"Thermal transport"

Defect Engineering for High-Performance Thermoelectric Semiconductors
Yuho Min
J Electr Electron Mater 2022;35(5):419-430.   Published online September 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.5.1
Defects in solids play a vital role on thermoelectric properties through the direct impacts of electronic band structure and electron/phonon transports, which can improve the electronic and thermal properties of a given thermoelectric semiconductor. Defects in semiconductors can be divided into four different types depending on their geometric dimensions, and thus understanding the effects on thermoelectric properties of each type is of a vital importance. This paper reviews the recent advances in the various thermoelectric semiconductors through defect engineering focusing on the charge carrier and phonon behaviors. First, we clarify and summarize each type of defects in thermoelectric semiconductors. Then, we review the recent achievements in thermoelectric properties by applying defect engineering when introducing defects into semiconductor lattices. This paper ends with a brief discussion on the challenges and future directions of defect engineering in the thermoelectric field.
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Technology Education : Thermal Transport Phenomena in the FET Typed MWCNT Gas Sensor with the 60 μm Electrode Distance
Kyung Uk Jang
J Electr Electron Mater 2015;28(6):403-407.   Published online June 1, 2015
Generally, MWCNT, with thermal, chemical and electrical superiority, is manufactured with CVD (Chemical Vapor Deposition). Using MWCNT, it is comonly used as gas sensor of MOS-FET structure. In this study, in order to repeatedly detect gases, the author had to effectively eliminate gases absorbed in a MWCNT sensor. So as to eliminate gases absorbed in a MWCNT sesor, the sensor was applied heat of 423[K], and in order to observe how the applied heat was diffused within the sensor, the author interpreted the diffusion process of heat, using COMSOL interpretation program. In order to interpret the diffusion process of heat, the author progressed modeling with the structure of MWCNT gas sensor in 2-dimension, and defining heat transfer velocity(u=△T/△χ), accorded to governing equation within the sensor, the author proposed heat transfer mechanism.
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