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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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…
The unique properties of carbon nanotubes (CNT), more specifically, single walled carbone nanotubes (SWNT), have made them excellent candidates for applications in bio-sensing, fuel cells, and nanofabrication. Considerable research effort has been devoted to development of methods to achieve stable suspensions of highly dispersed CNTs. However, progress has been impeded by two…
Present microelectronic photoimaging applications employ onium salts for deep UV (I-line, 365 nm) photolithography. Since most onium salts do not absorb at this wavelength, photosensitizers are commonly employed. Polynuclear aromatic hydrocarbons are the most efficient known examples of electron-transfer photosensitizers for onium salts. However, they have serious drawbacks…
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…
In photoinitiated cationic ring-opening polymerization, the polymerizable substrate is subjected to irradiation with light for a brief period during which the photopolymerization must proceed essentially to completion. Consequently, only monomers that undergo very high rates of polymerization may be employed. Certain epoxide monomers display high reactivity in photoinitiated…
In many industries, the blending of particulate material, for example, powders is often critical to the performance or desired characteristics of the resulting product, for example, the blending of powders to make concrete, the blending of pharmaceuticals, the blending of food ingredients, or the blending of ceramics, among other products. However, the blending equipment…
Displacement chromatography has attracted signifcant attention as a powerful technique for the purification of bioherapeutic proteins and oligunucleotides. Displacement chromatography enables simultaneous concentration and purification in a single step, which is significant in the purifcation of biopharmaceuticals. However, the major obstacle in implementing this technique is…
This invention is directed to a high-throughput process for screening proteins for kinetic stability.Kinetically stable proteins are trapped in one conformation and have a high barrier to unfolding, so they are resistant to aggregation and degradation and have a longer half-life.The ability to quickly and easily identify kinetically stable proteins would have a myriad of…
There are two basic classes of adhesives in widespread current use. The first class is pressure sensitive adhesives, such as are employed in adhesive tapes. The second class is reactive adhesives, used primarily for structural purposes. A long-standing problem with these types of adhesives is that they are unable of obtaining both a long working life and a rapid cure time.…