Online Profiles

The University of Toledo - 2016

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Research Description

Research Description By Graduate Engineering Department


Biomechanics, Bioartificial organs, Imaging, Computational Neuroscience, Biomedical/Tissue Engineering, Microsensors, Nanotechnology

Chemical Engineering

Green Engineering, Hydrogen Production, Biomass processing, Fuel Cell Technology, Polymer Nanocomposites, Membrane separations, Transport phenomena, Materials synthesis, Nanosensors, Bioremediation, Water treatment, Protein crystallization

Civil and Environmental Engineering

Structural engineering and structural mechanics; Environmental geotechnics, Brownfields, Transportation, Structural engineering, Blast-proof systems

Electrical Engineering and Computer Science

Communication theory, Computer networking, Object oriented design/programming, VLSI, Digital signal processing, Power electronics, Battery management systems, Automatic Controls, Nanotechnology, Distance learning techniques and development

Mechanical, Industrial, and Manufacturing Engineering

Biomechanics, Aeropropulsion, Composite Materials, Ceramics Material Processing, Tribology, Smart materials, Control, Fatigue and Fracture, Recycling, Waste Management, Nanomanufacturing, Direct Energy Conversion, Computational Fluid Dynamics, Aeroacoustics, MEMS, Sensors, Synthesis of Mechanisms, Heat Transfer, Precision Micro Machining, Nanopolishing, Turbomachinery, I.C. Engines, Flow Control and Experimental Methods, Reliability, Decision Analysis, Vehicle Dynamics, Finite Element Methods, Surface Modeling, CAD, Material Joining, Distance learning techniques and development

Research Description By Engineering Research Center

Center for Materials and Sensor Characterization

Scanning Electron Microscope (SEM); Scanning Transmission Electron Microscope (STEM); Dual Beam Environmental SEM and focused ion Beam (ESEM/FIB); Infrared microspectroscopic analysis;

Engineering Center for Orthopaedic Research Excellence (E-CORE)

Orthopaedic Biomechanics, Spine Biomechanics, Knee Biomechanics, Spinal and Disc Implants, Pelvis Biomechanics, Finite Element Modeling of Human Joints, Tissue Engineering

Polymer Institute

Processing, structure, transport, properties of polymers for industrial, automotive, food packaging, housing, medical and pharmaceutical, and energy applications.

Precision Micromachining Center

Rapid engineering design, prototyping, and pre-production process optimization; flexible process integration via automated control and high speed computer networks and high quality, environmentally benign, waste-free production throughout production life cycle;