Search the University of Missouri System Techfinder for all the latest and greatest of technology.
A dual-Action Solid Drug Nanoparticle Topical Formulation for Simultaneous Intraocular Pressure Reduction and Neuroprotection for Glaucoma
A novel method enables safer, more consistent, and scalable production of TNT-coated explosive particles with improved performance and reliability.
This technology turns passive plastic pipe into the starting point for smart infrastructure. The first value is a safer, faster way to locate buried pipe before excavation.
This technology addresses an immediate pain point for gas utilities: buried plastic methane pipes can be safer if the pipes themselves are locatable.
The Link-bar FRP coupler finally provides GFRP rebar with a reliable mechanical splice where none existed before. Its corrosion resistance eliminates the risk of rust in metal couplers and reduces long-term maintenance costs.
Graphite-derived conductive carbon materials are increasingly important for batteries, supercapacitors, conductive additives, coatings, composites, sensors, and other electronic and energy-storage applications. However, scalable exfoliation of graphite remains challenging.
The miniaturized electronics inside today’s medical implants, MEMS devices, compact sensors, and autonomous microdevices are increasingly limited by battery size and runtime rather than by computing capability.
Structural health monitoring is critical for bridges, aircraft, wind turbines, military assets, and other load-bearing systems where unexpected failure can cause major safety and economic consequences.
Vanadium redox flow batteries (VRFBs) are well suited for stationary energy storage, but their conventional cell architecture presents limitations for transport applications such as electric vehicles, rail, marine, and aviation.
Lithium-ion batteries have well-known shortcomings in transport applications due to slow recharging, short service lives, and bulky designs.
Lithium-ion batteries are increasingly expected to charge faster and operate reliably in cold environments, but aggressive charging creates serious performance and safety challenges.
Sulfate attack is one of the leading causes of concrete deterioration worldwide.
Researchers at Missouri University of Science and Technology have developed a three-layer all-in-one frostbite treatment device.
Researchers at Missouri University of Science and Technology developed a stimuliresponsive hydrogel patch reinforced with titanium carbide MXene nanoflakes for controlled transdermal drug delivery, using ibuprofen as a model therapeutic agent.
Researchers at Missouri University of Science and Technology have developed a flexible wearable warming pad based on a thin flexible polymer substrate layer coated with MXene titanium carbide.
Researchers at the Missouri University of Science and Technology have developed an immersible fiber-optic Raman probe system capable of direct immersion into molten materials at temperatures above 1500 °C.
Researchers at Missouri University of Science and Technology have developed a structural battery using standard carbon fiber reinforced polymer filament and a selective laser carbonization process.
Researchers at Missouri University of Science and Technology have developed the first demonstrated use of selective laser melting (SLM) for battery materials.
Researchers at Missouri University of Science and Technology have developed a closed-loop bioleaching system built around an algae-assisted microbial fuel cell.
Researchers At Missouri University of Science and Technology have invented a flow battery called Redox Exchange Flow Battery (REFB).
Researchers at Missouri University of Science and Technology have developed a method for fabricating structural batteries in virtually any three-dimensional shape through a layer-by-layer assembly process.
Researchers at Missouri University of Science and Technology have developed CO₂-Infused Steel Fiber Technology.
Researchers at Missouri University of Science and Technology developed functionally graded viscoelastic polymer liners for helmets and body armor.
Researchers at Missouri University of Science and Technology have developed OGLe-Mine, an AI navigation framework that guides miners to the nearest exit in real time after a disaster.
Researchers at Missouri University of Science and Technology developed an electrochemical biosensor that combines three-dimensional DNA origami with graphene quantum dots and gold nanoparticles.
Researchers at Missouri University of Science and Technology have developed a benchtop device that combines thermal-property testing with controlled electrical bias in a single setup.
Researchers at Missouri University of Science and Technology have developed a staggered contiguous cladding fiber Bragg grating array for fully distributed optical sensing.
For questions about new or emerging technologies or others, please reach out to the appropriate personnel for guidance and support.
Licensing Associate
573-341-7263 | Robert.prosak@mst.edu |
900 Innovation Drive, Suite 145
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