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Scalable Nanoparticle Synthesis for Precision Applications
TS-064181 — In the rapidly evolving landscape of nanotechnology, there exists a critical demand for scalable and efficient methods of producing nanoparticles. Current approaches, often confined to small-scale batches, hinder the widespread implementation of nanomaterials in diverse fields such as medicine, bi…
  • College: College of Engineering (COE)
  • Inventors: Winter, Jessica; Ruan, Gang
  • Licensing Officer: Dahlman, Jason "Jay"

Methods and Apparatus to Improve MRI Efficiency
TS-062627 — Magnetic Resonance Imaging (“MRI”) is one of the most important modern medical imaging modalities. It has far less risk of side effects than most other imaging modalities. Generally, a high quality image requires high signal-to-noise ratio, high contrast between normal and pathological t…
  • College: College of Arts & Sciences
  • Inventors: Wang, Jinghua
  • Licensing Officer: Panic, Ana

Addressing the Challenges in Cancer Imaging
TS-062545 — The Need: Addressing the Challenges in Cancer Imaging Cancer continues to be a major cause of global mortality, with over 10% of all deaths attributed to this devastating disease. Despite significant advancements in cancer research, there remains a critical need to enhance current techniques for pr…
  • College: College of Arts & Sciences
  • Inventors: Magliery, Thomas; Long, Nicholas; Sullivan, Brandon
  • Licensing Officer: Dahlman, Jason "Jay"

Addressing the Challenges in Cancer Imaging
TS-062544 — The Need: Addressing the Challenges in Cancer Imaging Cancer continues to be a major cause of global mortality, with over 10% of all deaths attributed to this devastating disease. Despite significant advancements in cancer research, there remains a critical need to enhance current techniques for pr…
  • College: College of Arts & Sciences
  • Inventors: Magliery, Thomas; Allen, Heather; Alten, Edward; Hitchcock, Charles; Long, Nicholas; Martin, Edward; Sullivan, Brandon
  • Licensing Officer: Dahlman, Jason "Jay"

Oxygen Sensing Nanofibers
TS-014967 — Nanofibers designed to quantify the oxygen content of a local environment for cell cultures and tissue-based applications such as a wearable technology wirelessly integrated into an electronic device used to estimate the efficiency of an individual's oxygen consumption.
Measurements of growth and activity of living cells are advantageous in a wide array of applications. Such measurements can be used to track tissue regeneration, phenotypic change, localized hypoxia, the testing and development of antibiotics and much more (Maria Strianese et al., Scott Lynn et al…
  • College: College of Engineering (COE)
  • Inventors: Lannutti, John; Xue, Ruipeng
  • Licensing Officer: Zinn, Ryan

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