Available Technologies by Category
Soft Wireless Sternal Patch for Detecting Systemic Vasoconstriction Using Photoplethysmography
  • A wireless, soft sternal patch includes integrated skin-like, photolithographically patterned electronics specifically tuned to continuously measure vasoconstriction from the sternum.
  • In overnight trials, the device detected sleep apnea and hypopnea with 95% precision and 100% sensitivity compared to data professionally scored by licensed clinicians.
  • Use of this patch on the chest could improve detection of key markers of numerous harmful health conditions.
9170
Intelligent Eye-Tracking System Offers Next-Gen Technology for Virtual and Augmented Reality (VR/AR) Applications
  • This system uses an AI accelerator chip with 4X higher throughput to achieve over 300 FPS, greatly improving processing speed without loss of accuracy.
  • EyeCoD achieves faster communication time by using a lens-less camera that reduces distance between the camera and the accelerator chip.
  • Using a “predict-then-focus” model, this system creates highly accurate images as well as improves visual privacy.
9202
Targeted Single Cell Electroporation for Gene and Cell Therapy
  • The technology enables high efficiency delivery and high post-electroporation cell viability compared to current commercial electroporation systems.
  • The technology performs in-flow single cell measurements integrated with electroporation unlike current commercial electroporation systems which have no single cell measurement capabilities.
  • The technology enables automatic feedback control and real-time optimization of electroporation parameters at the single-cell level unlike current commercial electroporation systems which apply the same parameters to all cells in a batch at a bulk scale.
  • The technology enables selected or targeted electroporation and delivery to selected cells or cell types from a mixture of cells unlike current commercial electroporation systems which require upstream or downstream cell sorting steps.
9086
Lymphoid Tissue System Harnesses Ex Vivo Immune Reactions for Rapid Antibody Production and Immune Response Prediction
  • This immunocompetent system uniquely accounts for the unexpected activation of various immune cells to allow proper immune cell differentiation, recapitulating an effective immune response.
  • The chemokine gradient is switchable, allowing the immune cell differentiation needed for an appropriate immune reaction.
  • An ex vivo system supports immune response creation in a controlled environment, allowing reproduction of immunologic events for developing improved therapeutics.
9196
Expandable Back Drive–Resistant Wedge Improves Payload Support and Security in Satellite and Other Limited-Access Applications
  • This expandable wedge designed to resist back drive creates a more predictable load path for limited-access payloads, such as small satellite installations. 
  • The design reduces the likelihood of payload damage caused by sudden shock loading that can occur due to the higher stresses of cantilevered loads. 
  • Two offset, spring-activated pawls make the cartridge resistant to vibration by holding the wedge in place once proper contact has been established.
9002
Solar Cell Manufacturing Technique Increases Efficiency and Lowers Costs
  • This double-side polysilicon/silicon oxide TOPCon (tunnel oxide passivated contact) solar cell concept provides a simple and low-cost way to passivate front and back surfaces of silicon wafers to enhance efficiency.
  • Provides current and voltage comparable to full-area double-side TOPCon but with no appreciable absorption in front polysilicon and without compromising short circuit current density
  • Includes a novel and fast way to pattern polysilicon using laser-induced selective oxidation
8888
Bioabsorbable, Permeable, and Flexible 3D Auxetic Implants Offer Large-Volume Soft Tissue Reconstruction
  • A novel 3D auxetic architecture offers enhanced compressive flexibility, permeability, and nonlinear mechanical behavior.  
  • This high-performance technology has the potential to generate implants with soft tissue-mimetic biomechanical properties and high mass transfer capacity.
  • Implants can be customized for patients by adjusting the strut width and intervals and by fitting the complex anatomic geometry of the defect based on patient medical data.  
8821
Tunable MEMs Gas Sensor Improves Selectivity and Sensitivity
  • Versatile: Customizes MEMS chemical sensors, compatible with a variety of sensing materials, allowing for the detection of numerous gas-phase analytes
  • Easy to manufacture: Uses batch-fabricated sensors compatible with COTS electronics
  • Highly sensitive: Offers sub parts-per-million detection limits for volatile organic compounds
  • Enhanced selectivity: Combines gravimetric and impedimetric responses to demonstrate enhanced discrimination between multiple VOCs
  • Powerful: Enables the simultaneous observation of both mass loading and dielectric changes in polymeric sensing films upon sorption of an analyte
  • Innovative: Uses the transient response characteristics of a sensor response to a gated exposure event, rather than steady-state sensor data
8269, 8987
Advanced Error Measurement System for Additive Manufacturing Machines
  • Advanced technology for precise error measurement in AM machine optomechanical systems
  • Innovative laser-based method to identify and correct focal errors in PBF-LB AM machines
  • Comprehensive approach enhances machine performance and output quality
9241
Algorithm for Optical Microscopy Image Denoising and Restoration
  • Miro performs consistent noise correction independent of the image sampling rate (working even with sparse images).
  • MIRO is compatible with all major imaging systems and camera types.
  • Unlike existing approaches, MIRO uses pattern, uniform, and non-uniform noise statistics to correct microscopy-relevant noise sources.
9103
Device Continuously Separates Functionalized Magnetic Microparticles from Solids to Yield Benefits for the Pharmaceutical Industry and More
  • Magnetic force is used to enhance traditional solid-solid separation techniques to yield a high-purity product stream and continuously return catalyst to a reactor.
  • The device is capable of continuous separation for multiple hours and can be parallelized or ran in series to improve solids throughput and separation efficiency.
  • This technology could help accelerate the adoption of continuous, heterogeneously catalyzed reactive crystallizations and, more generally, expand the chemistries and processes fit for continuous manufacturing. 
8806
Distributed Position, Navigation, and Timing (PNT) Chain Significantly Improves Drone Navigation When GPS Fails
  • The robust Distributed PNT Chain enables a swarm of drones or other autonomous platforms to effectively navigate when they are denied GPS access. 
  • The system shares and processes all available sensor data to significantly improve the robustness and reliability of drone teams.
  • The highly modular system is interoperable with preexisting GPS INSs and supports variable and evolving platform geometries.
9046
Systems and Methods for SmallSat Propellant Positioning
  • The technology provides a way to reliably and efficiently control saturated, or boiling, propellants compared to existing technology.
  • The technology can easily be scaled up and applied to different liquids and architectures.
  • Significantly enhances the reliability and efficiency of current positioning methods.
9165
Catalyst for Degradation of Traditional PET
  • Degradation of PET products lead to less landfill waste.
  • The technology has applications in bio-based packaging to eliminate single-use plastics.
  • Degradation does not give rise to microplastics, which are hazardous.
8960
Image-Based Disease Severity Algorithm
  • The technology utilizes an image-based algorithm and automatic methodology to detect biomarkers in disease.
  • It leverages a well-trained neural network on a dataset of healthy instances to learn the feature distribution of the healthy data.
  • Anomaly detection algorithms generate anomaly scores based on properties of the neural network, providing a measure of severity by assessing how anomalous an instance appears compared to the healthy distribution.
9097
Super-resolution microscope for 3D cell and tissue imaging
  • The technology facilitates super-resolution cell and tissue imaging with multiple colors.
  • The technology provides easy access to commonly adopted protocols, which has an expected wide usage.
  • 3D multifocal scanning microscopy facilitates stationary, multi-focal excitation, thus achieving super-resolution microscopy.
9321
Generative Machine-Learning Model for Preference-Based Attribute Editing and Photorealistic Image Generation
  • User-controlled image attribute editing and generation through paired queries
  • Effective extraction of difficult-to-articulate preferences for personalized content
  • Applications in social media, e-commerce recommendations, and entertainment industries
9200
Synthetically Generated, Realistic, and Controllable Human Bio-Signals from Participant-Free Data Collection
  • Synthetic data generation system replicates human body signals and uses a deep generative model to create synthetic SCG beats without human participants. 
  • Transformer-based generative model synthesizes SCG beats that are physiologically diverse and realistic. 
  • Clinically relevant feature inputs act as controls for aortic opening (AO) and aortic closing (AC) features of the generated SCG beat.
9081
Quantum Tunneling Radio Positioning System Achieves Higher Levels of Accuracy and Longer Range for Next-Generation Wireless Networks
  • This radiolocation system uses quantum tunneling tags (QTT) capable of operating in non-line-of-sight conditions to achieve longer range communications in outdoor and indoor applications. 
  • The use of QTTs, paired with a frequency hopping reader, results in positioning accuracy not achievable with standard methods.
  • QTTs are inexpensive and operate under low power requirements to offer an affordable orientation system with long battery life.
8535
Tactical Gloves for Accurately Tracking Munitions Use
  • The gloves include an antenna that is woven into the palm of the glove, which is constructed of comfortable, flexible materials that can operate at a range of frequencies.
  • Morphological actuation in the gloves supports safe use.
  • To resolve operation ambiguities and improve safety, the gloves include a fingerprint scanner.
9014