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Research Faculty Research
Sung Kwon Cho
- MEMS design and fabrication
- Micro/biofluidics
- BioMEMS
Minking K. Chyu
- Heat and mass transfer
- Gas turbine cooling and durability
- Fuel cells
- Energy technology
William W. Clark
- Adaptive and morphing structures
- Energy harvesting
- Active and passive-semi-active vibration control
- Smart structures
Daniel G. Cole
- Dynamic systems, measurement, and control
- Iterative and adaptive control
- Control of nanosystems
- Nanomanipulation and fabrication
- Optical traps
- Adaptive optics
Giovanni P. Galdi
- Linear and nonlinear stability
- Fluid/particle interaction
- Flow in channels and pipes
Peyman Givi
- Turbulence
- Combustion
- Computational fluid dynamics
- Propulsion
- Stochastic processes
Mark Kimber
- Energy and sustainability
- Electronics cooling
- Biomimetics
- Thermal hydraulics in nuclear energy
Prashant N. Kumta
- Nanostructured materials
- Non-viral gene and protein delivery
- Energy storage systems
- Mineralized tissue engineering
Bong JAe Lee
- Nanoscale heat transfer
- Energy conversion
- Biosensing
jung-kun lee
- Solar cell application of nanostructured materials
- Ion beam process and characterization
- Functional oxide materials
Scott X. Mao
- Experimental micro- and nanoscale mechanics
- Materials science
- Applied and fracture mechanics
- Thin films
- Metal/ceramic composites
Gerald H. Meier
- High temperature oxidation
- Coatings
- Fuel cells
- Gas turbines
Anne M. Robertson
- Newtonian and non-Newtonian fluid dynamics
- Cerebral vascular disease
- Constitutive modeling of soft biological tissues
Laura Schaefer
- Two-phase binary zeotropic flows
- Fuel cells
- Thermoacoustics
- Hydrokinetic energy extraction
William S. Slaughter
- Theoretical solid mechanics
- Strain gradient plasticity
- Sintered materials
- Modeling of bioprostheic valves
Patrick Smolinski
- Computational simulation and finite element analysis.
- Orthopaedic device engineering, tissue characterization and tissue engineering.
- Simulation and testing of surgical procedures and injury mechanisms.
- Quantitative Anatomic characterization.
Jeffrey Vipperman
- Acoustics, structural acoustics, noise control, and hearing loss prevention.
- Applied control, including active noise and vibration control.
- Control algorithm development (feedback and adaptive feedforward).
- Microelectromechanical systems (MEMS) design and fabrication.
- Modeling and simulation of dynamic systems.
- Smart structures and systems, including sensor and actuator development.
Qing-Ming Wang
- Smart materials, including piezoelectrics and electrostrictives.
- Thin films
- Actuator and sensor development
- MEMS design and fabrication
- Micro fuel cells
- BioMEMS
Lisa Mauck Weiland
- Experimental mechanics of active materials
- Ferroelectric ceramics intermediate rate regime characterization.
- Ionic polymer nanoscale energetics
- Nastic materials computational development
Jörg M.K. Wiezorek
- The electron density, interatomic bonding and properties of tetragonal ferromagnetic intermetallics, e.g. comparing FePd and FePt.
- The investigation of annealing phenomena, phase transformations and deformation mechanisms in bulk L1o-ordered intermetallic alloy systems, e.g. Fe-Pd, Fe-Pt, Mn-Al and Ti-Al compounds.
- The nature of the ordering phenomena and evolution of microstructure and defect structure in ferromagnetic intermetallic thin films and nanoscale bulk intermetallics.
- In-situ TEM, AFM and nanoindentation studies of the mechanisms of plasticity and fracture in nano-structured and layered materials systems.
Sylvanus N. Wosu
- Impact physics/experimental mechanics
- Composite materials
- Biomechanics of cerebral oxygen metabolism
Judith C. Yang
- Oxidation
- Heterogeneous catalysis
- Nanowires and nanomaterials
- Advanced electron microscopy especially in situ ultra-high vacuum TEM.
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