Stimulated emission depletion (STED) microscopy provides subdiffraction resolution while
preserving useful aspects of fluorescence microscopy, such as optical sectioning, and …

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 growing amount of data that is generated every year creates an urgent need for new
and improved data storage methods. Nanomaterials, which have unique mechanical …

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

The widely popular class of quantum-dot molecular labels could so far not be utilized as
standard fluorescent probes in STED (stimulated emission depletion) nanoscopy. This is …

We report all-inorganic solar cells based on solution-processed BiI3. Two-electron donor
solvents such as tetrahydrofuran and dimethylformamide were found to form adducts with …

Super-resolution microscopy (SRM) technology that breaks the diffraction limit has
revolutionized the field of cell biology since its appearance, which enables researchers to …

The unique optical properties exhibited by visible emitting core/shell quantum dots with
especially thick shells are the focus of widespread study, but have yet to be realized in …

For decades, the spatial resolution of conventional far‐field optical imaging has been
constrained due to the diffraction limit. The emergence of optical super‐resolution imaging …

“Giant” or core/thick‐shell quantum dots (gQDs) are an important class of solid‐state
quantum emitter characterized by strongly suppressed blinking and photobleaching under …