Biomolecular condensates play important roles in a wide array of fundamental biological
processes, such as cellular compartmentalization, cellular regulation, and other biochemical …

Quantum sensing has emerged as a powerful technique to detect and measure physical and
chemical parameters with exceptional precision. One of the methods is to use optically …

Electrochemical techniques conventionally lack spatial resolution and average local
information over an entire electrode. While advancements in spatial resolution have been …

Plasmonic molecules are discrete assemblies of noble metal nanoparticles (NPs) that are of
interest as transducers in optical nanosensors. So far, NPs with diameters of∼ 40 nm have …

Optical emitters in hexagonal boron nitride (hBN) are promising probes for single-molecule
sensing platforms. When engineered in nanoparticle form, they can be integrated as …

Accurate localization of biomolecules is pivotal for understanding biological processes.
Utilizing the atomically flat surface of 2D materials offers a promising route to achieve this …

Interferometric scattering (iSCAT) microscopy enables the label‐free observation of
biomolecules. Consequently, single‐particle imaging and tracking with the iSCAT‐based …

Direct observation of single-molecule interactions and dynamic configurations in situ is a
demanding challenge but crucial for both chemical and biological systems. However, optical …

Interferometric scattering (iSCAT) microscopy enables the label-free observation of
biomolecule interactions with surfaces. Consequently, single-particle imaging and tracking …

Accurate localization and delivery of biomolecules is pivotal for building tools to understand
biology. The interactions of biomolecules with atomically at 2D surfaces offer a means to …