TS-065465 — The Need: The agricultural sector faces persistent challenges in controlling pests like the European Corn Borer (ECB), which can devastate corn crops, leading to significant economic losses. Traditional methods often prove inadequate, necessitating innovative solutions to combat these destructive in…

TS-065463 — The Need: In today's fast-paced world, consumers seek not just sustenance but also moments of tranquility amidst the chaos. Indolce™ meets this need by offering a decadent pudding snack infused with mood-boosting ingredients designed to soothe both the palate and the mind. With stress leve…

TS-064662 — The Need: In today's fitness landscape, users demand immersive and intuitive experiences from their exercise equipment. Traditional treadmills lack the ability to adapt to individual users' movements, resulting in a static and often monotonous workout experience. There is a growing need for …

TS-063959 — The Need Millions of individuals suffer from constipation due to the inability to relax pelvic floor muscles during bowel movements, leading to discomfort and strained efforts. Current solutions, like the Squatty Potty, lack adjustability and portability, limiting their effectiveness for a diverse …

TS-063372 — Embark on a new era of fluidic control with our state-of-the-art three-dimensional fluidic oscillator technology. Experience precision, versatility, and efficiency like never before. Stay ahead of the curve and revolutionize your industry with our innovative solution. This inventive design is 1 of 3 aspects of technology T2019-309 and is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

TS-063369 — Experience the future of atomization technology with our feedback type fluidic oscillator device with atomized output. Unlock unparalleled precision and efficiency in fluid dispersion, revolutionizing industries and setting new standards for atomized spray applications. This inventive design is 1 of 3 aspects of technology T2019-309 and is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

TS-063350 — Experience the future of fluidic control—our sweeping jet device with multidirectional output sets a new standard in precision fluid distribution, offering reliability, efficiency, and innovation for diverse industrial applications. This inventive design is 1 of 3 aspects of technology T2019-309 and is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

TS-062492 — Photonic integration is driven by demand for smaller size, lower cost, lower power consumption, easier assembly, higher reliability, and greater data density in modern photonic devices and systems. Among the many platforms, silicon photonics is particularly promising for photonic integration due t…

TS-062422 — The Need In modern agriculture and pest management practices, there is a growing demand for effective insecticides that are environmentally friendly and sustainable. Conventional synthetic insecticides can have adverse effects on ecosystems, non-target species, and human health. Therefore, there is…

TS-062360 — The Need: In modern research, entomologists, biologists, and other scientific professionals often encounter the challenge of efficiently collecting small insects for study and analysis. Traditional methods are time-consuming, potentially damaging specimens, and can lead to inaccurate results. There …

TS-062352 — The Need In today's fast-paced world, efficiency is essential in meeting the growing demands of modern living. Conventional washing machines struggle to meet these demands, with long load cycles that sometimes require additional washing cycles. These wash cycles also damage clothing fibers, wea…

TS-062224 — The Need: Advancing Nonwoven Fibrous Webs for Personal Protective Equipment The demand for high-performance personal protective equipment (PPE) has been escalating rapidly, necessitating improved nonwoven materials that can meet stringent safety requirements. Traditional nonwoven fibrous webs lack …

TS-062210 — The Need Insect-borne diseases, such as dengue fever, chikungunya fever, malaria, yellow fever, and Zika virus, continue to pose significant health risks worldwide. With the drawbacks of existing repellents, there is a pressing commercial need for innovative and effective compounds and compositions…

TS-055653 — Embark on a new era of synchronized flow control with our fluidic oscillator array utilizing frequency-synchronized sweeping jets. Experience unmatched precision, adaptability, and efficiency in your engineering endeavors. Revolutionize your industry with our innovative solution, driving progress through synchronized fluidic innovation. This inventive technology T2018-051 is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

TS-055514 — Embark on a new era of fluidic control with our state-of-the-art fluidic oscillator technology with variable sweep, tilt, and inclination control as well as adjustable frequency. Experience unmatched precision, adaptability, and efficiency in your fluidic applications. Stay ahead of the curve and revolutionize your industry with our innovative solution. This inventive technology T2018-041 is just one part of a larger, comprehensive suite of fluidic oscillator technologies offered by The Ohio State University for licensing. To learn more about our other designs, please visit https://oied.osu.edu/find-technologies and search using the term: Fluidic Oscillator. To see a descriptive YouTube video of this technology, please visit: https://www.youtube.com/watch?v=g2Hn2q5W958.

TS-050189 — A novel support device to address the hand-to-oral cigarette habits of patients who are attempting to quit smoking.

TS-044688 — The Need: In today's world, the environmental impact of non-biodegradable petroleum-based polymers has become a growing concern. Industries that heavily rely on such polymers, like packaging, personal care, and pharmaceuticals, are seeking sustainable alternatives that minimize environmental ha…

TS-038002 — A new way to create polymer nanocomposite foam structures with enhanced mechanical properties.

TS-037860 — Natural rubber gloves that protect medical personnel against radiation without sacrificing physical performance.

TS-037500 — A new method of power harvesting based on electroceutical dressings dampened by a saline solution.

TS-037496 — A novel way to complete navigation with a GPS enabled device without maintianing a consistent signal

TS-037365 — A novel method to enhance the transverse-electric and transverse-magnetic polarized light via relfective surfaces on top of a tunnel junction based LED structure.

TS-021847 — A child-resistant trigger lock for spray bottles that automatically reengages after use.

TS-015265 — Chip-scale broadband and tunable polarization rotator with low insertion loss whose purpose is to dynamically control optical polarization in photonic integrated circuits

TS-014971 — A new process to fabricate stretchable and flexible wire antennas with conductive fibers (E-fibers)

TS-014952 — A nanowire that overcomes defect formation normally found in LEDs, leading to higher charge density.