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 semiconductor devices and growth techniques in the field of III-N semiconductors. For example, the technology provides a semiconductor device with a substrate comprising a groove. A buffer layer is formed on a surface of the groove. The buffer layer has at least one material chosen from AIN, GaN or AlxGa1-xN, where x is between zero and one. An…
This technology provides an LED design that can greatly improve polarization selectivity, 10:1, resulting in greater efficiency of the LED. The technology lies within a photonic crystal bi-refringent polarization rotator and an oxide spacer. The design blue-shifts transmission, which greatly improves overall efficiency of the LED by recycling wasted light and increasing…
This technology relates to an ultra high efficient LED system with the capability to modify an LEDs radiation pattern by changing its physical dimension-emission beam shape. The ultra high efficiency and redistribution of light has been achieved without the use of a back reflector. The ultra high efficiency can be controlled by changing the size of the nanorods within the…
This technology couples the physical layer characteristics of wireless networks with key generation algorithms. It is based on the wireless communication phenomenon known as the principle of reciprocity which states that in the absence of interference both transmitter and receiver experience the same signal envelope. Signal envelope information can provide to the two…
Using air as an emitting medium to generate terahertz wave has attracted attention because of its potential applications for remote distance THz wave sensing and imaging. Yet, the cutting edge energy conversion efficiency of THz wave generation with optical method is extremely low. Researchers at Rensselaer have developed a method for generating amplified terahertz radiation…
Using air as an emitting medium to generate terahertz wave has attracted attention because of its potential applications for remote distance THz wave sensing and imaging. Yet, the cutting edge energy conversion efficiency of THz wave generation with optical method is extremely low. Researchers at Rensselaer have developed a method for generating amplified terahertz radiation…
This technology is directed to nanostructures in general and to metal nanoblades in particular. Oblique angle deposition has been demonstrated as an effective technique to produce three-dimensional nanostructures, such as nanosprings and nanorods. Because of the physical shadowing effect, the oblique incident vapor is preferentially deposited onto the highest surface features…
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