The biological sciences currently employ optical microscopy the most. Super-resolution techniques break the traditional diffraction limit of light at roughly 250 nm and allow one to determine the ...

In biology, stochastic optical reconstruction microscopy — a technique that uses single-molecule detection and photo-switchable probes to achieve high-resolution fluorescence imaging — now ...

The global effort to combat climate change requires expanding renewable energy technologies. To optimise solar cells, ...

One promising technique – mass spectrometry imaging – overcomes some of these challenges. It allows researchers to see ...

The end result is a fully integrated optofluidic platform in which the borosilicate glass chip contains reconfigurable ...

Introduction to SNOM: The Scanning Near-field Optical Microscope (SNOM) stands as a pivotal analytical tool in nanotechnology, enabling the visualization of nanostructures with resolution beyond the ...

Researchers investigated whether microbial active motion (e.g., swimming), morphology and optical properties could serve as biosignatures using in situ video microscopy at a range of extreme field ...

Their new technique can image samples with a field ... Non-destructive, label- and contact-free In recent years, Brillouin microscopy has emerged as a non-destructive, label- and contact-free optical ...

Expansion microscopy (ExM) provides unprecedented views of cell interiors. The emerging super-resolution imaging technique relies on physical — rather than optical — magnification.