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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Researchers at RPI are developing a cognitive logic-enabled AI that can operate on multiple screens and in multiple environments for the K-12 sector. Declining public school math and science test scores have concerned American politicians and educators since the 1980s. This educational failure coincides with the large number of employees unable to fill the growing number of…
Researchers at RPI have developed a mixed-reality museum installation called the “World of Plankton (WOP).” WOP offers users a multisensory, interactive game based on phytoplankton ecology. Thanks to a virtual touch pool, users can manipulate and augment imagery of specific fish, microalgae, and other aquatic flora and fauna. Doing so launches sound effects, animation and…
Rensselaer researchers have developed a scanning electron microscopy based temperature mapping technique which employs a temperature sensitive electron signal for nano-scale resolution, non-contact measurement. It provides enhanced capabilities for investigating heat generation and transfer at the nanoscale to address long-standing issues related to power consumption, heat…
This technology relates to visually-guided multiprobe microassembly for assembling micro-electromechanical (MEMS) devices from multiple parts that are assembled rather than using bulk-processes to produce devices monolithically. Current production technologies primarily use a single wafer that is process chemically to produce finished devices. While this is useful for many…
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…
While there have been rapid advances in microscale device fabrication, microfluidics, and lab-on-a-chip technology, there is still a need to immobilize biomolecules (especially proteins) on a microfluidics apparatus, while maintaining high biological activity and electroosmotic flow (EOF) capability. This invention relates to the discovery that certain polymers containing both…
Chemicals affect living organisms in both positive and negative ways, depending on the chemical. Chemicals can have different effects on different organisms, for example, potential drugs that work in animals studies but fail in human trials. A major reason to these differences is that species, individuals, and organs all have different kinds and amounts of enzymes. There is a…