Find example text on the Acknowledgement Page or the individual instrument pages. Fluorescence spectroscopy is a powerful, non-destructive technique widely used in biochemistry, biophysics, and ...

Time-resolved fluorescence spectroscopy can detect events within a fluorophore’s environment. The events that can be measured are decay, indicated by a decrease in fluorescence after excitation ...

In fluorescence spectroscopy, scientists send a beam of light at a certain wavelength into a sample, exciting electrons in particular analytes or fluorescent labels, which then emit light at ...

Fluorescence techniques make it easier for life scientists to study the structure or dynamics of biomolecules, such as protein folding or how various molecules interact. Additionally, fluorescence ...

A recent article in Cereal Chemistry looked at how fluorescence spectroscopy could improve the way wheat quality is predicted. The study focused on analyzing spectral differences in flour ...

He has been analyzing 23 species of exotic hardwoods that are illegal to import. He uses X-ray fluorescence spectroscopy, a tool that applies high-energy X-rays to sample materials, allowing ...

Therefore, fluorescence spectroscopy can also be used to monitor DNA melting. A caveat of this method is a comparatively higher T m owing to the higher energy needed to break the interactions between ...

we used a technique called fluorescence spectroscopy. This involved shining various sources of light at the samples and recording the specific “fingerprints” of the resulting glow, known as an ...

A research team from Germany and the U.S. led by Heinrich Heine University Düsseldorf (HHU) has developed a data description that can provide results from fluorescence measurements for structural ...