The technique addresses two key problems that have kept solid-state nanopores from being used more often to build biosensors that can measure biological and chemical reactions of a given sample.
Discrete supramolecular structures are versatile building blocks for applications like drug delivery, catalysis, and molecular machines. A new methodology enhances their self-assembly.
Researchers develop sustainable, biocompatible materials from microalgae for high-resolution 3D printing, advancing eco-friendly manufacturing and biomedical applications.
This 'digestion-chip' promises to revolutionise the way new oral formulations are tested, offering a more accurate, efficient, and cost-effective alternative to current models.
