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arxiv: 2307.01114 · v1 · pith:UVIF5ZE6 · submitted 2023-06-01 · cond-mat.mtrl-sci

First-principles Calculations of High Thermal Conductivity in Germanium Carbide Channel Materials

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classification cond-mat.mtrl-sci
keywords carbideconductivitythermalgermaniumhighpowersi-mosfetsbandgap
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Silicon carbide (SiC) has become a popular material for next-generation power components due to its smaller size, faster switching speed, simpler cooling and greater reliability than Si-MOSFETs. With this in mind, we are thinking about whether the replacement of Si-base with Germanium Carbide(GeC) will also have good performance. This work explains the heat transfer of GeC by simulating the thermal conductivity through molecular dynamics (MD) and proposes a potential 4H-GeC power MOSFET with wide bandgap and high thermal conductivity to replace Si-MOSFETs.

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