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Dr. Schelling's research interests include thermal properties of semiconductors. With the increasingly aggressive thermal environments of new technologies, thermal transport is becoming an important issue for device lifetime and functionality. To address fundamental problems in thermal transport, Dr. Schelling uses large-scale atomic simulation. This work includes:
Kapitza resistance of grain boundaries and other interfaces
Phonon scattering at interfaces
Decay of localized, high-amplitude optical phonons
Transport in low-dimensional structures, including nanotubes and nanowires
Transport in superlattices and multilayers
Effect of point defects and surface/interface roughness on thermal transport in low-dimensional structures
Development of mesoscale models of thermal transport
Studies of thermal barrier coating materials
Kapitza resistance of grain boundaries and other interfaces
Phonon scattering at interfaces
Decay of localized, high-amplitude optical phonons
Transport in low-dimensional structures, including nanotubes and nanowires
Transport in superlattices and multilayers
Effect of point defects and surface/interface roughness on thermal transport in low-dimensional structures
Development of mesoscale models of thermal transport
Studies of thermal barrier coating materials
研究兴趣
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Brandon Fields,Patrick K. Schelling
JOURNAL OF CHEMICAL PHYSICSno. 8 (2024)
Physical Review Eno. 2 (2022)
arXiv (Cornell University) (2020)
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