Available Technologies
# of Displayed Technologies: 4 / 4
Junctional Tourniquet for Groin and Axillary Regions
TS-041808 — A tourniquet with a ratcheting lock to keep pressure on wounds in the groin and axillary regions. Hemostasis can be achieved while the patient is still in the field.
Patients with blood loss in the field need to be treated immediately to prevent ongoing blood loss, shock, and death; bleeding from extremity and junctional wounds is the leading cause of potentially preventable death from penetrating injuries. Direct manual pressure is effective for the initial c…
- College: OSU Wexner Medical Center
- Inventors: Nocera, Tanya; Graham, Nadi; McElroy, James
- Licensing Officer: Taysavang, Panya
Semi-crystalline Polymer Nanocomposite and Foam Structure and Method for Making the Same
TS-038002 — A new way to create polymer nanocomposite foam structures with enhanced mechanical properties.
Nanotechnology is a constantly growing field, and has a vast potential to change the world for the better. One of the many things products that the nanotechnology field has given to us is the polymer nanocomposite and their foams. This foam has a greater value than traditional plastic foams, since…
- College: College of Engineering (COE)
- Inventors: Lee, L James; Chiu, Debbie Yven; Fu, Dajiong; Li, Dachao; Yen, Ying-Chieh
- Licensing Officer: Zinn, Ryan
Fabrication of Nanopapers and Nanoparticle Reinforced Polymeric Composites Using Vacuum-Assisted Layer-by-Layer Spraying Technique
TS-037364 — A method to combine advantages of fiber-reinforced plastics and nanocomposites to produce a low-cost, superior lightweight material.
Nanomaterials, more specifically nanoparticle reinforced composites, are one of the best solutions for most lightweight applications. Due to the dispersion and high aspect ratio of nanoparticles, lightweight polymer nanocomposites exhibit dimensional stability, heat and flame resistance, barrier p…
- College: College of Engineering (COE)
- Inventors: Lee, L James; Guerra, Dante; Min, Yong Gang; Movva, Siva
- Licensing Officer: Ashouripashaki, Mandana
Tethered Liposomal Nanoparticle (tLN) Microarray Chips Containing Molecular Probes for Simultaneous Cell Sorting and Bio Detection
TS-037347 — A simple, and efficient method for identifying intra-cellular biomarkers for the targeted treatment of disease.
Tethered Lipoplex Nanoparticle (TLN) microarray biochips simultaneously capture and identify extracellular vesicles (EV) RNA targets from human plasma or bodily fluids with or without EV isolation. Molecular detection probes, such as molecular beacons (MBs), identify specific micro RNA (miRNA) or …
- College: College of Engineering (COE)
- Inventors: Lee, L James; Kwak, Kwang Joo; Wu, Yun
- Licensing Officer: Taysavang, Panya
