CORDIS Project
Funding breakdown and partner intelligence are Premium
Sign in and upgrade to Premium for EU contribution totals, consortium analytics, OpenAlex research context, and AI summaries. · 0 consortium intelligence fields visible of 1
Start free • Cancel anytime • 14-day refund guarantee
This project focuses on developing low-cost, microfluidic tools to study biological nanopores using optical tweezers. It aims to enhance our understanding of nanopore functions, enabling advancements in biosensors and peptide sequencing for personalized medicine.
Biological nanopores are nanometre-scale holes in membranes created by transmembrane proteins.
In nature, nanopores come from pore-forming toxins or exist as transporters in bacteria.
To date, they have been successfully used for an impressive variety of applications ranging from DNA sequencing through to the measurement of function-related motions of enzymes.
Planned developments using nanopores include their integration into biosensors for the detection of analytes from blood.
However, to reac…
Partner organizations (coordinator is shown above), with normalized type and CORDIS activity type. Guests see up to 4 partners.
Similar projects, consortium collaboration history, frequent partners, and OpenAlex research context.
Guests see up to 5 EuroSciVoc fields.
Guests see up to 5 topics.
Guests see up to 5 keywords.