Robert E. Gyurcsanyi

Solid-state nanopore for bio(chemical) sensing

Sensing with chemically-modified nanopores is an emerging field that is expected to have major impact on bioanalysis and fundamental understanding of nanoscale chemical interactions down to the single-molecule level. The main strength of nanopore sensing is that it implies the prospect of label-free single-molecule detection by taking advantage of the built-in transport-modulation-based amplification mechanism. At present, fabrication and application of solid-state nanopores are becoming the focus of attention because they offer remarkable flexibility in terms of shape, size, and surface properties, as well as superior robustness. A breakthrough in label-free nanopore sensing for real-world applications is therefore expected from implementing solid-state nanopores, an area that is still developing. The lecture will address, through the eyes of an analytical chemist, fabrication technologies of solid-state nanopores, their chemical functionalization, and detection strategies for quantitative chemical analysis.