Available Technologies by Category
High-Precision Microphone for Body-Worn Devices
  • Wearable small form-factor (micro-chip technology)
  • Increased sensitivity (micro-gravity sensitivity)
  • Large bandwidth (DC to 10kHz) and wide dynamic range (120dB)
7891
Coating and Scaling of Material Stripes and Patterns
  • Exceptional flexibility with respect to material selection
  • Highly scalable
7749
Reversible Doping of Semiconductor Films for Electronics
  • Effective – Reduction in film’s electrical resistance
  • Scalable – Can control doping of large or small-scale bulk materials
  • Simplified – Allows for stacking of organic semiconductor layers without cross-linking the layers
7017
Ultrasound System for Measuring Weld Penetration Depth
  • Real-Time – Potential to operate in a real-time welding environment
  • Reliable – Test have shown repeated accurate and precise results
  • Off-Life – Ability to check health and viability of welds
3348
Edge Viewing Photodetector
  • Efficient
  • Cheaper
3321
High-Resolution Pressure Sensors with Skin-Like Sensitivity
  • Extremely sensitive: This sensor array provides 1,000x higher sensitivity than other technologies.
  • Improved performance: The technology is fast-responding and stable.
5895
Dual Electrode Ultrasonic Transducers
  • Optimized – allows for both transmitting and receiving signals to be optimized
  • Reduced Interference – reduces interference in receiving and transmitting signals to reduce dead zones
3103
Ultra-Compact, Low-Power THz Radio
  • A THz fully integrated super-harmonic (2nd harmonic) regenerative receiver architecture, which detects the incoming THz signals and injection-locks to a regenerative receiver operating at a lower frequency
  • Reduces power consumption and improves the efficiency for THz signal generations
  • Employs a bidirectional and circuit-sharing architecture, so the THz receiver and the THz transmitter share the same oscillator operating at half the frequency
7053
Stretchable Electronic Materials and Devices
  • Process is a readily implemented approach
  • Films can be stretched by 100% with retention of their high charge carrier mobility
  • Fabrication can be done with commercially available materials
7612
3D Printed Auxetic Scaffolds for Tissue Engineering
  • Faster cell growth rate- decreases average cell age in the finished product and increases vitality
  • Affordable and timely approach for regenerating tissues and replacing native tissues
  • Continuous entry and circulation of nutrients results in less variability between cells
7335