Emerging Technologies
Analytical Instrumentation
- Real-Time Isotope Ratios of Individual Airborne Particles
- Probe Measurement of Oil Dilution by Fuel in Internal Combustion Engines
- Apparatus for Live Cell Imaging
- Lithium Loaded Liquid Scintillators with Pulse Shape Discrimination Characteristics for Neutron Detection
- Carbon Nanotube Temperature and Pressure Sensors
- Photoacoustic Microcantilevers Spectroscopy
- Nanomechanical Sensor
- Calibrated Broadband DC-coupled High Impedance Pickoff Circuit for Remote Monitoring of High Power in Impedance Controlled Environments
- Photoacoustic Point Spectroscopy
- Reverse Photoacoustic Standoff Spectroscopy
- Real-time High Resolution Quantitative Imaging by Three Wavelength Digital Holography
- Methods and Apparatus for Determining Optical Properties of Biological Tissues
- Combined Quantitative Phase-Contrast and Epi- Fluorescence Microscope
- Quantitative Phase Imaging by Digital Holographic Tomography
- Rapid Functional Recognition Imaging in Scanning Probe Microscopy
Chemicals
Energy & Utilities
- Dielectric Strength Enhancement of Polymers with Nano-particle Inclusions
- Well Defined Structures for Capacitor Applications
- A Novel Method for Improving Flux-pinning and Possibly Achieving High Temperature Superconductivity (HTS) Filamentization
- High Throughput Parallel Backside Contacting and Periodic Texturing for High-efficiency Solar Cells
- A Targeted Mutagenesis Tool in Mesophilic Cellulolytic Clostridia species Energy
- Integrated Reactor and Centrifugal Separator and Uses Thereof
- Composite Biaxially Textured Substrates Using Ultrasonic Consolidation or Bonding
- VERDE: Visualizing Energy Resources Dynamically on Earth
- Enrichment and Development of Anode Biocatalyst for Microbial Fuel Cells
- Enhancing Cation-Exchange Capacity of Biochar for Soil Amendment and Global Carbon Sequestration
- Produced Water Treatment Using Fuel Cells
- Deriving Energy from Hydrogen Sulfide Using Fuel Cells
- Microbial Fuel Cells for Enabling Water Recycle in Biorefineries
- Microorganisms Having Enhanced Resistance to Acetate
Healthcare/Bio
- A Method for the Diagnosis of Blinding Eye Disease Using Image Content and an Archive of Diagnosed Human Patient Data
- Photoactive Wound Dressing
- Apparatus for Live Cell Imaging
- Meso-fluidic Prosthetic Finger
- Bone Implant Material with Enhanced Osseointegration and Improved Life-time through Periodic Structures
- Meso-fluidic Control Valve
- Nanoscopic Electrode Molecular Probes
- Meso-scale Fluidic Digital Valve
- Slow Wave Structures for Charged Particle Applications
- A Hydraulic Flow Control Device by Means of a Digital Poppet Valve
- Miniature Fluid Control Valve
- Methods and Apparatus for Determining Optical Properties of Biological Tissues
- Combined Quantitative Phase-Contrast and Epi- Fluorescence Microscope
- Quantitative Phase Imaging by Digital Holographic Tomography
- Rapid Functional Recognition Imaging in Scanning Probe Microscopy
IT-Communications
Manufacturing
Materials
- Method of Preparing Hydrous Hafnium, Cerium, or Aluminum Oxide Gels and Spherules
- Bone Implant Material with Enhanced Osseointegration and Improved Life-time through Periodic Structures
- Apparatuses for Pre-stressing Rod-type Specimens in Tension for In-situ Passive Fracture Testing in an Extremely High-pressure Environment of Hydrogen
- Fermentative Method for Making Nonoxide Fluorescent Nanoparticles (Quantum Dots)
- High-Mn Austenitic Stainless Steel
- Methods of Use of Calcium Hexa Aluminate Refractory Linings and/or Chemical Barriers in High Alkali or Alkaone Environments
- Oxygen Diffusion to Dramatically Improve the Wear Resistance of Titanium Aluminides (TiAl, Ti3Al, TiAl3)
- High Throughput Parallel Backside Contacting and Periodic Texturing for High-efficiency Solar Cells
- Apparatuses for Pre-stressing Rod-type Specimens in Torsion for In-situ Passive Fracture Toughness Testing in an Extremely High-pressure Environment of Hydrogen
- Material Independent Design of Photoluminescent Systems Based on Alignment of Polar Molecules in Charged Surface
- Carbon Nanotubes Grown on Various Fibers
