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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Existing liquid lense optical focusing strategies use liquid lenses after transient oscillations have dampened. The challenge with this existing liquid lens approach is two-fold. The first issue is to overcome the liquid inertia to enable a rapid state change, and the second, is to minimize the time it takes for transients induced during stoppage to Subside. Many systems use…
Many times following orthopedic surgery or injury to lower extremeties patients are advised to gradually bear weight on their limb. Since patients do not want to cause further damage or pain to the injury they put little to no weight on the area. The application is necessary, however, for proper recovery. This invention is a mechanical device that indicates to the patient when…
Isolating individual components of nanoscale architectures comprised of thin films or nanostructures, without significantly impacting their functionalities, is a critical challenge in micro- and nano-scale device fabrication. One example that illustrates this challenge is seen in Cu interconnect structures for nanometer devices. These devices use interfacial barrier nanolayers…
This invention is directed to a method to improve the performance of stepper motor driven systems.Stepper motors are ubiquitous in modern office equipment and other machinery, yet little is published regarding their optimal use in open loop systems.Accurate control of a stepper motor is limited by the ability of the control system to approximate the actual motor and…
Conventional technologies used for the generation of solar power include building-integrated flat-plate photovoltaic (PV) systems, and stand-alone concentrating PV systems that are removed from the location of power application. Although these technologies work, widespread adoption of them for general use has been hampered by a number of impediments, such as the large amount…
There is an increasing interest in using nanoparticles as building blocks for well-defined structures that have practical applications owing to the various novel properties of nanoparticles. However, their assembly is a challenging task. Methods based on surface functionalization, andor template patterning have been used for this purpose, but both of these processes can be…
Carbon nanotubes are a nanostructured material that promises to have a wide range of applications. However, the present techniques used to build nanotube architectures have several deficiencies, such as the inability to precisely and controllably align the nanotubes. This invention is a novel and powerful method to assemble carbon nanotubes on planar substrates to build and…
This invention is directed to a novel non-destructive method to remove excess layers of copper from microchip interconnect-metallization processing, allowing copper to be used in place of aluminum. The new method, an Electro-Chemical Planarization process, is a means of removing the copper in an electrolysis-designed solution bath without damaging the thin-film and…
For most types of gelatin-based imaging elements, surface abrasion and scratching results in reduction of image quality. Thus, processing the image and, later, casual handling of the image can easily mark or disfigure the image. There is, therefore, a need for an imaging element having improved scratch resistance over materials currently used. It has been unexpectedly…
Terahertz (THz) waves occupy a segment of the electromagnetic spectrum between the infrared and microwave bands. As such, they can be used for imaging and sensing in ways that are not possible with conventional technologies such as X-ray and microwave. Because THz radiation transmits through almost anything that is not metal or liquid, the waves can see through most materials…