Thermodynamics and Intermolecular Interactions
Thermodynamics and Intermolecular Interactions: phase
equilibria and thermophysical properties of importance to separations,
chemical and bio-processing, particle formation, and environmental
applications; solution chemistry at the molecular level; relating
microscopic properties to intermolecular and intramolecular
interactions
Current Studies
- Measurement, correlation, and prediction of limiting activity
coefficients
- Optimal solvents and cosolvents for processing and product
design
- Properties of gas-expanded liquids and supercritical fluids
- Solid-liquid equilibria in crystallization and purification
- Effect of hydrogen bonding on solution properties
- Transport properties of liquids and nanofluids
- Thermodynamics of electrolyte solutions
- Themodynamic modeling of multiphase, multicomponent atmospheric
aerosols
- Partitioning behavior of VOCs
- Thermodynamics of polymer solutions
- Relationship between thermophysical properties and spectroscopic
measurements
Participating
Faculty
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