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Self-assembled 3D RNA Cage Nanoparticles with Precise Shape and Size for Applications in Medical Sciences, Materials Sciences, Engineering and Nanotechnology
TS-039545 — Self-assembling, highly stable RNA cages amenable to custom functionalization and cargo delivery
One of the primary challenges in therapeutic development is cheap, efficient, and safe drug delivery to specific target tissues. To better target specific tissues, RNA nanotechnology has been progressively applied to generate predefined architectures via self-assembly of modular building blocks. N…
  • College: College of Pharmacy
  • Inventors: Guo, Peixuan; Jasinski, Daniel; Khisamutdinov, Emil; Li, Hui
  • Licensing Officer: Flammang, Ann Marie

Lipid Nanoparticles for Therapeutic Delivery of Anti-miRs and miRs
TS-037707 — An efficient delivery vehicle for therapeutic oligonucleotides with high efficiency.
The Need MiRNA or miRs are small non-protein coding RNA which are capable of regulating mRNAs in multiple biological pathways, including those involved in cancer development and wound healing. Antagomirs, also known as anti-miRs, inhibit miR activity and could be used to develop therapeutics for in…
  • College: College of Pharmacy
  • Inventors: Lee, Robert
  • Licensing Officer: Flammang, Ann Marie

Nanopump Separation Device and Method
TS-037584 — A device for separating macromolecules in a solution of macromolecules having different molecular sizes
Many clinical and research applications involve separation of specific biological molecules, such as nucleic acids and proteins, for further analysis and characterization. A complex biological system can only be understood after each component has been separately analyzed, and proteins must be pur…
  • College: College of Engineering (COE)
  • Inventors: Hansford, Derek; Walczak, Robbie
  • Licensing Officer: Hoffman, Joshua

Method for Producing Epitaxial Semiconductor Nanowire Heterostructures on Metal Foil
TS-037409 — Semiconductor nanowire LEDs grown directly on flexible metal foil.
The formation of dislocations in conventional thin film devices due to lattice mismatch strain restricts the choice of substrate and heterointerface. Nanowires can accommodate large strains due to their surface to volume ratio that permits large lattice mismatched heterostructures without dislocat…
  • College: College of Engineering (COE)
  • Inventors: Myers, Roberto; May, Brelon; Sarwar, A.T.M. Golam
  • Licensing Officer: Wohlgamuth, Christopher

Nanoparticle and Long Fiber Reinforced Thermoset Nanocomposites
TS-037388 — A method to combine the advantages of both fiber reinforced plastics and polymer nanocomposites to produce a superior composite material.
Dispersion of nanoparticles into fiber reinforced plastics (FRPs) produces superior composites. Current methods face two problems: (1) best practices to disperse nanoparticles FRPs are not defined and (2) methods to maintain resin processability in the presence of nanoparticles are not understood.…
  • College: College of Engineering (COE)
  • Inventors: Lee, L; Cao, Xia; Zhou, Gang
  • Licensing Officer: Wohlgamuth, Christopher

Synthesis and Foaming of Water Containing Activated Carbon-Nano/Microparticulate Polystyrene
TS-037386 — A novel method to increase thermal efficiency infrared absorption and bulk density of polystyrene foams.
Blowing agents create a cellular structure from a liquid plastic resin and, in certain cases, function as an insulating component of the foam. Hydrogen-containing chlorofluorocarbons and fluorocarbons are common blowing agents in the foam industry for extrusion forming of Polystyrene foam. However…
  • College: College of Engineering (COE)
  • Inventors: Lee, L; Chiou, Nan-Rong; Yang, Jintao; Yeh, Shu Kai
  • Licensing Officer: Wohlgamuth, Christopher

Fabrication of Nanopapers and Nanoparticle Reinforced Polymeric Composites Using Vacuum-Assisted Layer-by-Layer Spraying Technique
TS-037364 — A method to combine advantages of fiber-reinforced plastics and nanocomposites to produce a low-cost, superior lightweight material.
Nanomaterials, more specifically nanoparticle reinforced composites, are one of the best solutions for most lightweight applications. Due to the dispersion and high aspect ratio of nanoparticles, lightweight polymer nanocomposites exhibit dimensional stability, heat and flame resistance, barrier p…
  • College: College of Engineering (COE)
  • Inventors: Lee, L; Guerra, Dante; Min, Yong Gang; Movva, Siva
  • Licensing Officer: Wohlgamuth, Christopher

Porous Thermoelectric Materials
TS-037351 — A formulation to increase the efficiency of thermoelectric materials by reducing density.
Thermoelectric effects enable direct conversion of thermal to electrical energy, which provides an alternative power generation and temperature conditioning. Although thermoelectric systems are environmentally friendly, the efficiency of thermoelectric devices cannot compete with current gold-stan…
  • College: College of Engineering (COE)
  • Inventors: Heremans, Joseph; Jaworski, Christopher
  • Licensing Officer: Gooray, Arthur "Art"

Nanocomposites and foams fabricated by nano-particulate filtration and ultrasonic resin impregnation method
TS-037194 — Cost-effective methods that infiltrates multi-walled carbon nanotube (MWCNT) nanopapers with epoxy resin.
Polymer carbon nanotube composites have many intriguing physical properties lightweight, high-mechanical strength, thermal conductivity, electrical conductivity, and chemical stability. Conventional techniques of directly mixing nano-particulates, such as multiwalled carbon nanotubes, with polymer…
  • College: College of Engineering (COE)
  • Inventors: Lee, L; Benatar, Avraham; Castro, Jose; Chen, Feng; Zhao, Yanan
  • Licensing Officer: Wohlgamuth, Christopher

Method to Synthesize Ceratamine A and B and Analogs Thereof
TS-030264 — A chemical process to produce ceratamine A and B.
The natural products ceratamines A and B were isolated from a marine sponge in minute quantities and shown to have potent anti-tumor activity. Due to the insufficient sample size and subsequent lack of availability of the producing sponge, evaluation was incomplete. Thus, the clinical potential ne…
  • College: College of Arts & Sciences
  • Inventors: Coleman, Robert "Rob"; Campbell, Erica
  • Licensing Officer: Paschall, Christopher

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