University of Cincinnati

The University of Cincinnati provides expertise in areas including Intelligent Propulsion Systems, Nondestructive Characterization of Macro- Micro- and Nano-Materials, Intelligent Maintenance Systems, an d Advanced Sensor Technology.

With 11 Ohio Eminent Scholars and $443 million in research funding, UC is truly an innovative leader in Ohio and beyond. From the organic form at the lab bench to the lines on a drafting table, research at UC assumes many shapes, sizes and even sounds. Discovery at UC is wide-ranging, from basic, clinical and translational research, to creative works and performance.

Emerging Energy Systems

• Fuel Cells
  • Development of innovative electrodes, electrolyte, and sealing technologies/materials and their synthesis for a SOFC with efficient operation at lower temperatures of 500-650°C
  • Novel electrode and membrane materials based on functionalized nanotubes and self-assembled proton exchange membranes for low temperature fuel cells
  • Thermal and water management in fuel cells to control and enhance the heat, mass and volatile species transport utilizing micro-channel forced convective heat/mass transfer, two-phase flows, and interfacial phenomena
  • Development of nanoparticle electrodes for the alkaline fuel cells and optimization of the metal for maximum power density
• Hydrogen Production and Storage
  • Using biomass and organic waste derived carbohydrates and hydrocarbons using transition metal-loaded zeolite catalysts and regenerative SOFC
  • Electrolytically split water using solar energy
  • Use functionalized carbon and B-N nanofibers and nanotube arrays for hydrogen storage
  • Chemically split water using electropositive metals
• Solar Energy Conversion or Direct Utilization
  • Use of TiO2 arrays for photovoltaic energy conversion.
  • Solar cells based on self-assembled quantum dots/polymer composites.
  • Develop TiO2-based nanomaterials for photocatalytic treatment of water.
• Alternative Fuels
  • Molecular design of catalysts for biomass conversion to fuels
  • Synthesis and properties of the catalysts
  • Develop novel catalysts for gasification and water-gas shift reaction
  • Membranes for hydrogen separation and shift reaction

Multi-scale Material Characterization and Composite Structures Laboratory

• For more information concerning this research facility, please contact the director, Dr. Jandro Abot.
• Processing and Manufacturing Press Molding
  • Press molding processing of polymeric composite materials.
• Processing and Manufacturing Resin Transfer Molding (RTM)
  • Resin transfer molding (RTM) of polymeric composite materials.
• Processing and Manufacturing Resin Infusion
• Processing and Manufacturing Wet Lab Facilities
• Thermomechanical Characterization Loading Stage System
• Thermomechanical Characterization Dynamic Mechanical Analyzer
• Thermomechanical Characterization Polariscope
  • Polariscope for mechanical characterization and calculation of residual stresses from prototypes made of birefringent materials.

Non-Destructive Evaluation Laboratory

• For more information concerning this research facility, please contact the director, Dr. Peter Nagy.
• Scanning ultrasonic microscope
• White light interference microscope
• Eddy current imager
• Magnetic scanner noncontacting thermoelectric imaging
• Laser interferometric detection and generation systems for non-contacting ultrasonic inspection
• Alternating current potential drop (ACPD) analyzer with LR-700 resistance meter
• Computerized ultrasonic data acquisition systems
  High-power ultrasonic system for the inspection of strongly attenuating materials
• Noncontacting electromagnetic acoustic transducers
• Eddy current inspection systems (Staveley Nortec, UniWest, Agilent)
• 100 kN MTS for fatigue cycling and electro-elastic and acousto-elastic measurements

Turbomachinery Erosion and Performance Deterioration Laboratory

• For more information concerning this research facility, please contact the director, Dr. Widen Tabakoff.
• Erosion wind tunnels (cold and high temperature)
• Two types of three-dimensional laser facilities
• High speed photographic array
• Microbalances
• Axial compressor (GE)
• Axial turbine (NASA)

Center for Intelligent Maintenance Systems

• Smart Structures and Nano-Technology Research Laboratory
  • Carbon Nanotube Synthesis
    • Chemical Vapor Deposition using advanced nano-furnace
    • Identification and optimization of CNT growth parameters
    • Substrate thickness and growth methods
    • Characterization of CNT arrays (ESEM, EDS, TEM)
    • Diffusion enhancement and improved catalyst
  • Biosensors
    • MWCNT tower sensors for generic chemical and biological sensing
    • Electrochemical Methods – Cyclic Voltammetry and EIS
    • Nanotube array immunosensor
    • Wearable noninvasive chemical sensor
    • Nanotube needle biosensor for in-vivo use
    • Nanotube cell biosensor for cancer detection
    • Preparation and Functionalization of electrodes
  • Structural Health Monitoring
    • Continuous Sensors
    • Structural Neural System
    • Active Fiber Composite Sensors
    • Analytical modeling of wave propagation in composite/isotropic plates
• Structural Dynamics Research Laboratory
• Robotics Research Laboratory
• Computational Fluid Dynamics Research Laboratory
• Computer-Aided Engineering Research Laboratory
• Acoustic liners facility for cold & hot flow research
• Afterburner Simulation Test Bed
• Anechoic chamber for subsonic and supersonic aero-acoustic research
• Atmospheric, flameless, and high pressure combustor Facilities
• Fire Test Center
• Gas Turbine Simulation Lab
• Compressor research facility
• Simulation Lab for High-Speed Propulsion Integration
• Subsonic, transonic, and supersonic wind tunnels for flow research