technologies available for licensing

Rensselaer Polytechnic Institute has a variety of technologies ranging from chemicals to lighting systems to algorithms and everything in-between. Rensselaer’s technologies can help you start a company or be a great addition to your current technology portfolio. To see what technologies are currently available for licensing at Rensselaer, please use the search below. If you have a technology need that Rensselaer’s technologies don’t currently solve, please reach out to IPO to discuss more your needs.

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Hollow gold nanoparticles, also known as gold nanocages, are effective vehicles for the transport and administration of therapeutic agents, bioactive compounds, biomolecular reagents, biocatalysts, and other molecular compounds of interest. However, better control of the bioavailability of gold nanocages content is needed. The patent describes a gold nanocage with pores,…
Rensselaer researchers have developed a thermodynamically stable dispersion technology resulting in thick, transparent, high refractive index silicone nanocomposites that increase the light efficiency of LEDs and improve the emitted light color quality. The nanocomposites could also be processed as transparent bulk material with high filler loading, which is essential for…
This technology relates to synthesizing nanoparticles with multiple polymer assemblies attached. In one example, a first anchoring compound is attached to a nanoparticle, and a first group of monomers are polymerized on the first anchoring compound to form a first polymeric chain covalently bonded to the nanoparticle via the first anchoring compound. In another example, a…
This technology relates to nanofilled polymeric materials with a tunable refractive index without increased scattering or loss. The tunability allows the creation of hybrid nanocomposites that combine the advantages of organic polymers (low weight, flexibility, good impact resistance, and excellent processability) and inorganic materials (high refractive index, good chemical…
This technology relates to a process for creating electrodes in which high-surface area nanostructures are fabricated in situ by electrochemically etching a sacrificial scaffold material. Removing a material after it has been built into the cell opens up pores within the electrode whose size and density can be controlled, resulting in higher efficiency and Pt utilization.…
This technology relates to solid-state devices as replacements for incandescent light bulbs. The LED based bulb uses the normal Edison socket, but the LED and heat sink are placed on the far end of the bulb. The heat sink attaches to the bottom and outside of the bulb providing a structural base for the LED. Several alternative shapes for the light guide are provided to…
Coating particulate material can often enhance the physical and chemical properties of the material including improved insulation properties, improved abrasion resistance, and improved strength. However, coated particulate materials are often porous and tend to absorb gases and liquids, which destroy the material, or at the very least, interfere with its insulating properties…
Many envisioned carbon nanotube (CNT) applications, such as device interconnections in integrated circuits, require directed growth of aligned CNTs, and low-resistance high-strength CNT junctions with tunable chemistry, stability, and electronic properties. However, forming CNT-CNT junctions on the substrate plane in a scalabe fashion, to enable in-plane device circuitry and…
Oxide glasses with earth ions have a number of different applications including: lasers, optical switches, optical amplifiers and have anti-glare properties. These rare earth glasses, however, come with a number of problems including concentration quenching, low solubility, and inhomogenous distributions of the glass components. This invention tackles these issues by providing…
Many proteins lose enzymatic activity in harsh environments, such as non-optimal pH or temperature, or exposure to organic solvents. This invention is based on the discovery that by attaching certain proteins to single-walled carbon nanotubes ("SWNT"), protein function under such harsh conditions can be dramatically improved. Two enzymes which were stabilized in this…