SELF-DISINFECTING REVERSE ADHESIVE BANDAGESPrinceton Docket # 21-3726Researchers in the Department of Physics at Princeton University have designed a self-disinfecting reverse adhesive bandages for healthcare use. One of the primary mechanisms of viral and bacterial transmission, particularly SARS-CoV-2, is by transfer of the infectious agent by touch...
Published: 2/14/2024
|
Inventor(s): Robert Austin, Shivaji Sondhi
Keywords(s):
Category(s): Medical Devices/Diagnostics, Biotechnology/Pharmaceuticals
|
Reusable Self-disinfecting Gloves for the Mitigation of Pathogen SpreadPrinceton Docket # 20-3700 Researchers in the Department of Physics at Princeton University have designed reusable self-disinfecting gloves for both commercial and medical use. This technology functions by using an inner impermeable layer of material and an outer semipermeable...
Published: 2/14/2024
|
Inventor(s): Robert Austin, Shivaji Sondhi
Keywords(s):
Category(s): Medical Devices/Diagnostics
|
Researchers at
Princeton University have developed three new methods for manipulation of DNA
and other large macromolecules in microfluidic environments.
The first method
permits fractionation of DNA continuously on micro or nano-fabricated support
materials. Current methods to
fractionate larger (greater than 30kb) DNA molecules by size use...
Published: 5/23/2022
|
Inventor(s): James Sturm, Lotien Huang, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|
Researchers at
Princeton University have developed three new methods for manipulation of DNA
and other large macromolecules in microfluidic environments.
The first method
permits fractionation of DNA continuously on micro or nano-fabricated support
materials. Current methods to
fractionate larger (greater than 30kb) DNA molecules by size use...
Published: 3/30/2022
|
Inventor(s): Lotien Huang, James Sturm, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|
Researchers at Princeton University
have developed three new methods for manipulation of DNA and other large
macromolecules in microfluidic environments.
The
first method permits fractionation of DNA continuously on micro or
nano-fabricated support materials.
Current methods to fractionate larger (greater than 30kb) DNA molecules
by...
Published: 4/23/2024
|
Inventor(s): James Sturm, Lotien Huang, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|