Fluorescence microscopy has undergone a renaissance in ... owing to its scattering properties in visible wavelengths and the light-protective mechanisms that exist in most species to prevent ...

State-of-the-art microscopy is a vital tool in understanding the critical mechanisms of cell growth and division. .

Fluorescence microscopy is a type of imaging where the emission signal from fluorophores such as molecules, quantum dots, nanoparticles, etc. is used to visualize cells and structures on a microscopic ...

A brand new fluorescence microscope is beyond a hacker’s budget ... which is not rocket surgery, the light source from below illuminates the subject like a raver, and the filter removes any ...

Fluorescence is a well-known phenomenon with many practical applications that has been studied for decades. Despite this, a ...

Here, researchers have access to many imaging systems, including transmitted light, TIRF, and epifluorescence microscopes, spinning disc and laser scanning confocal microscopes, 2-photon systems, and ...

This approach resolves high-resolution images from several tens of widefield fluorescence-microscope frames without requiring specialized equipment such as spatial-light modulators or intensive ...

This out-of-focus fluorescence is collected by the lens and measured by the detector. As a result, images acquired by wide-field microscopes may appear blurry. Out-of-focus light is the reason why ...

while almost all stray light is eliminated from interior surfaces for the best sensitivity and color separation. Other advanced features further facilitate fluorescence microscopy, including a new ...

Scientists can now use super-resolution microscopy to directly observe living subcellular structures and activities ... graphene’s optical conductivity depends on its super-moiré structure, not its ...