The identification of biological material (DNA, RNA, proteins,…) is generally done thanks to cumbersome lab equipment and/or rely on ultra-specific and proprietary sensitive reagents. We aim to develop a new platform based on the solid-state nanopore technology which could produce label-free results on field.
One way to pierce a nanopore in an ultra-fine dielectric membrane is to use an electron beam. An ion current is obtained when placing this pierced membrane in-between two insulated reservoirs filled with electrolytes and applying a low voltage. A particle going through the pore modifies this ionic current giving us information on its size, charge or conformation.
For this technique to yield the best results we need control over each bit of the platform: the dielectric assembly and nanopore within; the high speed and precision electronic apparatus to measure ionic current; the fluidic integration and even the algorithm responsible for deciphering the current trace. Starting from the simplest setup possible, the PhD candidate will have to push forward every aspect of this ambitious project, aiming for protein sequencing, relying on the multiple expertise of the Leti and the Lambe laboratory.