Development of Zero-Depth Nanofluidic Capillaries for Advanced Interfacial Applications

This research introduces an innovative method for fabricating zero-depth nanofluidic capillary devices, specifically interfacial nanopore systems, designed for advanced fluidic and sensing applications. By employing precise nanofabrication techniques, we achieve nanopore capillaries with ultra-low depth profiles, enabling exceptional control over fluid dynamics at the nanoscale. These devices exhibit highly uniform pore geometries and enhanced interfacial properties, facilitating efficient molecular transport and detection. Our approach ensures scalability and reproducibility, making it suitable for large-scale production. The resulting nanopore capillaries demonstrate remarkable performance in applications such as single-molecule sensing, ion transport studies, and biomolecular analysis, offering significant potential for next-generation nanofluidic technologies.