Available Technologies by Category
Leverage the Advantages of Aluminum Nitride for Superior Ultra-Wide Bandgap Semiconductors for High-Power, High-Temperature Diodes and Transistors
  • Metal modulated epitaxy method enables the production of p-type beryllium-doped aluminum nitride films as key components in ultra-wide bandgap semiconductors for the first time. 
  • Achieves high reverse breakdown voltage—a significant advantage over wide bandgap materials such as silicon carbide and gallium nitride.
  • Improves current conduction over best previous results in p-type aluminum nitride (AIN) by 30,000,000 times and n-type AlN by 6,000 times.
8666
Mechanocatalytic Depolymerization of Plastics
  • A new process for recycling plastics has been created where plastics are broken down simultaneously by mechanical and catalytical forces.
  • This chemical recycling has less economic costs, produces less wastes, and allows for an increase in the number of different types of plastics that can be recycled.
  • The process also provides a convenient solution as it is highly scalable, requires less volumes of catalysts, and can be fueled by electronic and renewable energies.
8370
Messenger RNA–Based Expression of Cardiomyocyte Phenotype Sensors and Differentiating Genes for In Vitro Correction of Cardiac Disorders
  • This invention uses a gene therapy as a direct treatment for symptomatic bradyarrhythmia and removes the needs for implantation of electronic pacemakers.
  • The innovation does not lead to spillover to the liver, spleen and lungs; allows for mRNA gene transfer to stay focal to the injection site; and does not have danger of integration into the host’s DNA.
  • The new gene therapy could be used as first-line treatment of arrhythmias and consequent ailments and to circumvent the need for major surgical interventions.
7526
Dominance-Based Wireless Communication and Associated Solutions
  • A new method of wireless communication has lessened  the need for multiple channels and time durations, by creating a system where many transmitters can simultaneously transmit and increase network throughput.
  • This new system yields higher spatial reuse, reduces the latency of data reception, and improves loss performance and can be used in most wireless network scenarios.
  • The dominance based technique uses collection of information coding, and other supporting mechanisms in order to prevent the waste of communication resources.
4713
Smart Nanosensor-Embedded Stent System for Wireless Surveillance of Restenosis in Coronary Artery Disease
  • An electronic stent that incorporates an ultrathin stretchable wireless sensor for continuous surveillance of restenosis along with neointimal proliferation and plaque deposition.
  • There is no existing system that offers a clinically practical solution for continuous, real- time detection of both restenosis incidence and progression.
  • This device will profoundly decrease the number of healthcare dollars spent on repeated revascularization due to restenosis in CAD.
8542
Systems and Methods for Flexible Sheath Locking with Integrated Shape Sensing
  • This technology aims to become a new steerable device to reduce the invasiveness of traditional methods for delivering drugs and diagnostic devices inside the body.
  • There are no known existing methods of delivering radiotherapy without the potential of adversely affecting healthy cells.
  • This device and method will enable drastic improvements in the quality of life of patients having to undergo radiotherapy treatment. 
9264
Back-Illuminated, Modified Silicon Photomultipliers with Largely Enhanced Efficiency for Multiple Applications
  • A novel photomultiplier device has been created that minimizes photon losses, and greatly enhances the efficiency of the device.
  • The photomultiplier may improve the fill factor to 100% from 75% for the current SiPM and increases the usable wavelength range to cover the entire UV-Vis spectrum.
  • The technology contains a texturized photoelectric surface and at least one coating layer and can be produced using standard manufacturing processes and low extinction coefficient materials.
8965
Enhanced Diversifying Base Editors for Directed Evolution in S. cerevisiae
  • This invention presents an optimized and integrated CRISPR diversifying base editor for use in yeast and demonstrate its ability to rapidly improve the affinity of an antibody through yeast display. 
  • The innovation has enhanced the base editor mutation rate up has been increased to 27-fold by characterizing an improved key variant and by optimizing the structure of the CRISPR guide RNAs.
  • The technology has attained a rate roughly 10-fold higher than state-of-art systems and facilitates ultra-rapid antibody diversification.
9111
Novel Repressor Proteins for Gene Regulation and CRISPRi
  • The new CRISPRi platform uses novel fusion proteins to specifically inhibit target genes of interest and overcome the off-target issues with existing CRISPR platforms already on the market.
  • The technology can be used as a life science tool and/or for diagnostics and therapeutics.
  • The platform aims to limit off-target editing, circumvent incomplete gene knockdown sgRNA sequence-dependent repression activity, and variable performance across human cancer cell lines.
9106
Tunable Membrane-Based Wastewater Treatment and Resource Recovery
  • Customizable membrane structure and surface properties provide selective removal of contaminants of emerging concerns (CEC) and recovery of valuable components.
  • An enlarged membrane surface area, combined with a gutter effect from the interlayer, results in nearly double the water permeability of current filtration membranes.
  • Achieves high-performance recovery of essential nutrients/fertilizers that are free of CECs.
8633
A Brayton Electrochemical Refrigerator/Air-Conditioner
  • The Brayton Electrochemical Refrigerator/AC is a new, electrochemistry-based method of highly efficient cooling. 
  • Based on the Brayton cycle, the process provides continuous cooling while also providing near-zero global warming potential (GWP) refrigeration.
  • This technology is highly efficient with a measured coefficient of performance that exceeds 8 as well as a non-flammable and non-toxic technology.
8711
Enabling Rapid Detection of Label-Free RNA for Use in COVID-19 Testing
  • Earlier detection: Identifying the viral components themselves—rather than the body’s reaction to the viral presence (i.e., antibodies)—potentially improves early detection in asymptomatic subjects.
  • Simpler process: Use of minimal reagents and fewer preparatory steps is designed to enable more efficient and facile sample preparation. Avoidance of “wash steps” aims to minimize target loss.
  • Fewer disruptions: Avoiding the use of high-demand supplies (e.g., swabs) and reagents potentially reduces supply-chain and contamination issues.
8669
Magnetohydrodynamic Pumped Liquid Metal Loops for Spacecraft Thermal Control
  • The absence of moving parts and low vapor pressure of the liquid result in enhanced reliability and minimum power consumption.
  • The near-zero vapor pressure of the liquid metal reduces leaks and minimizes the pressure difference between the loop and the external environment, which reduces the mass of the pipes and enables the use of non-metallic lightweight fluid handling materials.
  • With thermal conductivity values two orders of magnitude above standard refrigerants, the volume and mass of heat exchangers are reduced proportionally.
9251
Messenger Ribonucleic Acid (mRNA)–Based Opsin Expression Enables New and Safer Optogenetic Studies
  • Opsin expression using messenger RNA (mRNA) provides an alternative to viral vectors for use in optogenetic studies involving neurons as well as drug testing with cardiomyocytes.
  • Expression with mRNAs has lower toxicity and is usually detectable within 2–24 hours rather than 2–3 weeks.
  • The controllable and temporary nature of mRNA offers improved expression regulation based on the transfection amount.
7534
Microfluidic Device Enables Prediction of T-Cell Ability to Home and Engraft to Disease Tissues
  • Improve the homing capabilities of T cells to increase adoptive cell therapy treatment response and safety while decreasing off-target effects.
  • Enhance tumor-infiltrating capabilities with engineered microfluidic devices that identify optimal subsets of cells.
  • Optimize development pipelines by reducing the number of laborious in vivo studies, while also helping cell therapy companies ensure their products reach the desired tissue.
9052
mRNA Therapeutic Delivery System Offers Targeted, Sustained HIV Pre-Exposure Protection in the Female Reproductive Tract
  • This system delivers messenger RNA that encodes neutralizing antibodies, which anchor to the female reproductive tract ensuring adequate, sustained tissue concentration for HIV prophylaxis.
  • This HIV prevention therapy targets the female reproductive tract and offers month-long protection to reduce office visit frequency and potentially lower medical costs.
  • This safe, water-based technology offers ease of administration to enhance patient compliance and prevent systemic complications. 
8324
Predictive Maintenance System for Large-Scale Operations Offers Potential for Significant Cost Savings
  • Consistent workflow improvements: Offers repeatable and consistent enterprise-level improvements to the maintenance workflow.  
  • Proactive readiness: Improves maintenance scheduling, allowing for improved logistics, scheduling, virtual kitting, and part/component availability. 
  • Customizable: Customers can build and tailor their PMx solutions according to their needs, providing increased data control and an alternative to costly and limited solutions.
8793
High-Accuracy, Low-Cost, Low-Power Wireless Tracking Tags
  • Low-cost, ultra-low power wireless tag for real-time asset tracking
  • Passive wireless tag costs less than $1 to manufacture and can operate for several years with maintenance-free operation
  • Compatible with off-the-shelf devices, making it ideal for efficient inventory control in multiple industries
8943
Overvoltage Surge Protection System for Distributed Energy Resources
  • iMOV is a dynamic system capable of achieving voltage surge clamping within 20% of the system’s nominal voltage. This effectively provides protection for highly sensitive semiconductors present in DER-associated power converters. 
  • This system is built upon a metal oxide varistors (MOV) foundation, whose material composition inherently allows rapid device connection of 500 picoseconds for quicker response times. 
  • iMOV uses integrated microprocessors and sensors in a cloud-based architecture that provides protection against cyberattacks, reduces system cost, and allows system and power grid monitoring.
9190
Bi-Channel Needle for Injection
  • The injection fluids are completely separated until the tip of the needle, preventing their mixing until they have reached the syringe’s distal tip. 
  • Since the specific volumes of each drug required will be added to the channels of the syringe, this device reduces the amount of fluid left in the syringe after injection.
  • The needle allows the clinician to inject with syringes that are parallel to each other, as opposed to at some oblique angle.
  • The length of the device is not limited to the current 1-inch syringe. It can be longer (even greater than 1 meter) for catheter-based procedures.
9028