Published Multi Sector Photonic Crystal Demultiplexer The design of the photonic crystal is optimized to provide for the optimal superprism effect resulting in greater spatial separation and overall compactness of the device. By Georgia Institute of Technology
Published Sciences Holographic Spectrometer This technology is suited for detecting weak spatially incoherent signals in biological and environmental sensing applications. By Georgia Institute of Technology
Published Multi Sector Chemical Anchoring. This invention describes a novel method of anchoring and growing carbon nanotube structures on various substrates coated with thin layers of metal such as gold, silver, and copper. By Georgia Institute of Technology
Published Transport Landing Gear The landing gear enables rotorcraft to land on complex terrain using active control via actuators and force feedback, which can adapt precisely to surfaces. By Georgia Institute of Technology
Published Aerospace Carbon Nanotube Cold Cathodes Georgia Tech researchers have developed carbon nanotube based ion thrusters with improved electron emission sources. By Georgia Institute of Technology
Published Transport Aerodynamic Drag Reduction Novel synthetic jet actuators positioned downstream of vorticity concentration-producing components, e.g., protrusions and/or depressions, for modification of fluid flow. By Georgia Institute of Technology
Published Multi Sector HD Displays An effective technique for fabricating large-area multicolored emissive patterns in mixed quantum dot-polymer films which requires only a single deposition step. By Georgia Institute of Technology
Published Environment & Sustainability UV Detector The polymer coating increases the sensitivity of the UV detectors by 5 orders of magnitude.The combination of the polymer coating and ZnO nanobelts improves response speed. By Georgia Institute of Technology
Published Medical AFM Cantilevers Novel cantilever structure simplifies the operation of AFM. It provides accurate force measurements with nanoscale lateral resolution and enables operation in both air and water. By Georgia Institute of Technology
Published Aerospace Group-III Nitride Alloys This method employs metal-rich molecular-beam epitaxy (MBE) while successfully avoiding thermal and spinodal decomposition. It also maintains a metal adlayer thickness. By Georgia Institute of Technology
Published Electronics Better Flexible Electronics An innovative method to significantly reduce the WF of various organic materials, including noble metals, transparent metal oxides, conducting polymers, graphene, etc. By Georgia Institute of Technology
Published Electronics 100x Mobility Improvement This technology provides an efficient approach for mass manufacturing high-performance large-area printed electronics. By Georgia Institute of Technology
