Super-resolution imaging techniques that overcome the diffraction limit of light have gained
wide popularity for visualizing cellular structures with nanometric resolution. Following the …

Exosomes are extracellular vesicles that share components of their parent cells and are
attractive in biotechnology and biomedical research as potential disease biomarkers as well …

A photon avalanche (PA) effect that occurs in lanthanide-doped solids gives rise to a giant
nonlinear response in the luminescence intensity to the excitation light intensity. As a result …

Super-resolution microscopy techniques, and specifically single-molecule localization
microscopy (SMLM), are approaching nanometer resolution inside cells and thus have great …

Super-resolution microscopy opened diverse new avenues of research by overcoming the
resolution limit imposed by diffraction. Exploitation of the fluorescent emission of individual …

During the last three decades, a series of key technological improvements turned atomic
force microscopy (AFM) into a nanoscopic laboratory to directly observe and chemically …

Stimulated emission depletion (STED) nanoscopy is a promising fluorescence microscopy to
detect unresolvable structures at the nanoscale level and then achieve a superior imaging …

The brain is arguably the most complex organ. The branched and extended morphology of
nerve cells, their subcellular complexity, the multiplicity of brain cell types as well as their …

Multicomponent supramolecular copolymerization promises to construct complex
nanostructures with emergent properties. However, even with two monomeric components …

Geometric arrays of vortices found in various systems owe their regular structure to mutual
interactions within a confined system. In optics, such vortex crystals may form spontaneously …