Tri-Modal Nanopore Sequencer /Sensor for DNA/RNA and Other Biomolecules

Tech ID: 20A070

Competitive Advantages

  • Accurate and efficient diagnostic of COVID-19
  • Works for both COVID-19 and future emerging diseases
  • Targets the virus itself, not antibodies

Summary

Researchers at USF are developing nanopore-based sequencing of DNA/RNA using a tri-modal approach that is built around atomically thin, two-dimensional (2D) nanomaterials. This technology has distinct advantages over fluorescence-based techniques, most notably its size and portability.  At less than a nanometer thick (less than 1/100 the size of SARS-CoV-2 virus), these atomic-scale 2D crystals are ideal for sensing DNA/RNA as they are one of the few materials that approach the length-scales of individual DNA/RNA nucleotides. This technology will provide unprecedented diagnostic ability for both the current COVID-19 pandemic as well as for future emerging threats.  

Oblique View of an Exemplary Tranverse Conductance System With a Transiting Double-Stranded Biopolymer  

Desired Partnerships

  • License 
  • Sponsored Research
  • Co-Development

 

Technology Transfer
TTOinfo@usf.edu
(813) 974-0994

Researcher(s)

Patents