Available Technologies by Category
Molecular Flux Measurement Device and Method
  • Efficient: Enables a 3x increase in MBE speed compared with metal organic chemical vapor deposition  
  • Controlled: Provides flux stability and control by enabling in-situ measurement of a signal related to the flux, achieving 0.001% flux stability under optimal conditions
  • Reliable: Enables signal measurement in real time, providing high accuracy and reproducibility
3556
Bio-Inspired Gripper with Shear-Induced Clamping
  • Effective: Assists in lifting/releasing objects when in a shear-activated/disactivated mode
  • Versatile: Works with a wide variety of shapes, sizes, and materials
  • Robust: Does not require high precision in controlling vise jaws, making it easy to implement in an industrial environment
8393
Enabling Multi-Beam, High-Capacity Massive MIMO for 5G Communications and More
  • State-of-the-art: Is the first Rx-array design of its kind, autonomously achieving modulated blocker suppression and desired signal beamforming simultaneously without the need for a digital beamforming aid  
  • Robust: Enables multi-beam high-capacity massive MIMO to address the demands of both commercial and defense applications
  • Scalable: Employs ASFs that achieve 4-element spatial filters with sharpened selectivity that can be extended to larger array sizes of thousands of elements and cancellation of any number of interference signals
8120
Enabling Privacy-Preserving Search Over Fuzzy Databases
  • Privacy-preserving: Improves the security of biometric-based surveillance, identification, or searches for individuals using their biometric data over private databases
  • Timely: Addresses the requirements of recent and emerging privacy protection regulations and policies
  • Practical: Fills a gap in privacy-preserving search technologies, which currently do not accommodate searching of fuzzy data such as biometrics
8506
Zeolitic Nanotubes for Advanced Chemical Catalysis and Separation
  • Streamlined: Allows for faster access into and out of zeolite pores without compromising key characteristics of conventional zeolites
  • Advanced: Supports a single central mesoporous channel even after calcination of the organic structure directing agents
  • Robust: Consists of both micropores and mesopores with the potential to enable a variety of separation and catalytic properties.
8407, 8922
Virtual Sensing Integrated for Predictive Reliability (VIPR)
  • Advanced: Acquires system data via virtual sensing, without the need for physical sensors in all desired locations
  • Cost-reducing: Aims to reduce maintenance and planning costs for solid rocket motors and potentially other vehicle propulsion systems
  • Predictive: Provides useful, repeatable, extensive data sets to predict rocket performance and enable proactive plans for propulsion system maintenance, upgrades, and replacements, potentially reducing downtime and failures
8555
A First-of-its-Kind, Ultra-Low Voltage Single-Element Amplified Backscatter System
  • Streamlined: Uses a single element—one tunnel diode with few passive components—to achieve dual functionality of simultaneous oscillation and reflection-amplification
  • Efficient: Combines the features of conventional RFIDs and tunnel diode-based reflection amplifiers while using an extremely low biasing voltage of only 88 mV, consuming only 20 μW, and offering a reflection gain of 48 dB
  • Long range: Provides the highest observed gain in the literature for a given input power
8375
Integrating Electrical Sensors into Soft-Lithography Microfluidic Devices
  • Sophisticated: Advances the integration of electrical sensors on microfluidic devices with a simple, approachable solution
  • Sensitive: Demonstrates a higher signal sensitivity than electrodes in a typical coplanar arrangement
  • Adaptable: Allows for greater layout flexibility because of its straightforward fabrication process
7769
Microfluidic CODES with Innovative Machine-Learning Analysis
  • Scalable: Set-up allows for the integration of multiple microfluidic devices to increase throughput volume.
  • Versatile: Machine learning analysis can be applied to other microfluidic devices integrated with the same Coulter sensor network.
  • Pragmatic: This innovation improves the capabilities of lab-on-a-chip systems to provide an affordable solution for low-resource settings.
7107, 8032
ScheduleNet: Advancing Multi-Robot Coordination
  • Superior performance: Outperforms approximate human-robot scheduling methods in both schedule optimization and total number of feasible schedules
  • Robust: Can autonomously learn scalable scheduling heuristics on multiple application domains and attains an order-of-magnitude improved computation speed compared with exact methods
  • Novel: Is the first method to leverage graph neural networks involving simple temporal network (STN)-based scheduling problems with spatial constraints
8515, 8517
Utilizing Impedance Spectroscopy for Advanced Characterization of Particles
  • Comprehensive: Simultaneously measures both spatial and dielectric properties of particles
  • Streamlined: Helps resolve signal interference from coincident cells—a challenge of other assessment techniques
  • Precise: Offers complex impedance as a new level of particle feature assessment, integrating it with other measurements such as elasticity and size for more predictive analyses
8049
All-Electronic Immunophenotyping Device for Point-of-Care Testing
  • Convenient: Provides an all-electronic immunophenotyping process with straightforward equipment and techniques
  • Low cost: Performs sophisticated, multistep analyses in a system that is affordable enough for point-of-care settings
  • Flexible: Allows for the easy immobilization of multiple antibodies in the device—a shortcoming of current systems
8045, 8047
Scalable Microfluidic Device with Multiple Constriction Channels for High-Throughput Mechanophenotyping
  • High throughput: Addresses the low-throughput challenges of other similar technologies by handling a sample volume near that of a Coulter counter
  • Low cost: Eliminates the need for costly equipment, highly trained personnel, and long processing times that come with other measuring processes
  • Scalable: Uses a frequency division scheme so that multiple copies of the system can operate concurrently
8031
Measuring Surface Antigen Expression via Microflow Cytometry
  • Portable: This innovation uses a disposable, handheld device without bulky or costly equipment, which is expected to be especially useful in low-resource settings.
  • Simple: It is designed to achieve results similar to those from a commercial flow cytometer but without requiring initial purification.
  • Recoverable samples: Unlike commercial systems, the analyzed sample can be recovered for further tests at the end of the analysis.
7913, 8048
A Sensor That Converts Everyday Objects into Microphones
  • Lower cost: The SATURN microphone’s simpler and less expensive fabrication technique results in lower overall costs.
  • Better performance: The microphone geometry, attachment methods, and size and spacing of holes are optimized to maximize the recovery of sound and generation of power. This results in better performance compared to commercially available microphones of this type, recovering sound up to 5,000 Hz.
  • Versatile: Its thin, flexible, and passive form make it configurable to a large number of applications.
7915
Next-Generation Flow Battery for Large-Scale Energy Storage at One-Tenth the Cost
  • Higher power density: This design has achieved ultra-high power densities of 630 W/Ldevice (charge) and 170 W/Ldevice (discharge), compared to existing flow battery designs that achieve only 500 W/Ldevice (charge) and 90 W/Ldevice (discharge).
  • Ultra-high current density: The design has achieved current densities of >300 mA/cm3 per device.
  • Dramatically lower cost: The elimination of parts reduces fabrication costs by 90%. Cost is ~$330 rather than ~$4,400.
8284, 8571
Electromagnetic (EM) Metastructures
  • Multi-use: Provides structural support in conjunction with static and in situ EM performance
  • Efficient: Reduces size, weight, power, and cost (SWaP-C) parameters 
  • Flexible: Integrates non-standard material systems
8469
Innovative Ion Mobility Spectrometry with Open-Air Assembly
  • Protective: Potentially helps protect the technician against contact with ionic hazards
  • Rapid: Separates ions through fast detection of differences in their mass, charge, and cross-section
  • Convenient: Leverages an open-air arrangement that significantly reduces time for experiment setup and sample preparation
4885
High-Tech Infant Suit for Earlier Detection of Cerebral Palsy
  • Advanced: May allow for earlier detection of motor dysfunctions in order to begin therapeutic interventions as soon as possible
  • Robust: Collects data from three limb segments on the leg for a multifaceted assessment
  • Long-lasting: Uses one power source with regulated voltage in order to prolong the use of the device
7949
Energy Storage for Automotive/Portable Applications
  • Increased storage density — backbone offers high surface area for hydrogen storage
  • Fast and easy — polymer readily folds and unfolds for hydrogen storage and fast release in response to actuation
  • Suitable for packaging — uses compliant polymers as a matrix to assume any form factor
3626