Super-resolution microscopy (SRM) bypasses the diffraction limit, a physical barrier that
restricts the optical resolution to roughly 250 nm and was previously thought to be …

Super-resolution microscopy has overcome a long-held resolution barrier—the diffraction
limit—in light microscopy and enabled visualization of previously invisible molecular details …

Fluorescence nanoscopy uniquely combines minimally invasive optical access to the
internal nanoscale structure and dynamics of cells and tissues with molecular detection …

In vivo imaging, which enables us to peer deeply within living subjects, is producing
tremendous opportunities both for clinical diagnostics and as a research tool. Contrast …

To increase the temporal resolution and maximal imaging time of super-resolution (SR)
microscopy, we have developed a deconvolution algorithm for structured illumination …

The growing demands of brain science and artificial intelligence create an urgent need for
the development of artificial neural networks (ANNs) that can mimic the structural, functional …

Dendritic spines are small, thin, specialized protrusions from neuronal dendrites, primarily
localized in the excitatory synapses. Sophisticated imaging techniques revealed that …

The extracellular space (ECS) of the brain has an extremely complex spatial organization,
which has defied conventional light microscopy. Consequently, despite a marked interest in …

Far-field optical microscopy using focused light is an important tool in a number of scientific
disciplines including chemical,(bio) physical and biomedical research, particularly with …

Despite its short history, diffraction-unlimited fluorescence microscopy techniques have
already made a substantial imprint in the biological sciences. In this review, we describe …