Nanopore sensing is based on detecting the change in ionic current in a nanopore as a molecule traverses through it. Single-biomolecule identification, with nanopores, involves two key steps. First: ...

After this, we will showcase some of the most interesting research using different DNA origami nanostructures for various applications in nanopore sensing, enzymatic cascades electrocatalysis, and ...

This project builds on his previous work refining nanopore technology for sensing molecules, viruses, and other nanoscale entities. Freedman believes these advancements signal a shift in the future of ...

The nanopore device, however ... builds on Freedman’s previous research on refining the use of nanopores for sensing molecules, viruses, and other nanoscale entities. He sees these advances ...

The nanopore detector only needs a source of electricity to operate, he says. “This nanopore sensing assay can be carried out at home, in the office or by the roadside as well, as simple as a ...

After discussing with colleagues years later, experiments on ‘nanopore sensing’ began in 1993 and were first described in a paper in 1996¹ using a pore protein called ɑ-hemolysin derived from ...

In a research collaboration with Oxford Nanopore Technologies, scientists from the University of Washington have unveiled a groundbreaking ‘proof-of-concept’ method showcasing the capability of the ...

More information: Makusu Tsutsui et al, Identifying Viral Vector Characteristics by Nanopore Sensing, ACS Nano (2024). DOI: 10.1021/acsnano.4c01888 ...

OXFORD, England, & LOS ANGELES--(BUSINESS WIRE)--Oxford Nanopore Technologies, the company behind a new generation of molecular sensing technology based on nanopores, and Plasmidsaurus ...