fluorescence spectroscopy

It is widely used as a marker in fluorescence spectroscopy.

This is applied to X-ray fluorescence spectroscopy of solid materials.

Fluorescence spectroscopy is primarily concerned with electronic and vibrational states.

Fluorescence spectroscopy, for a complete discussion of fluorescent measurement.

This technique is known as laser-induced fluorescence spectroscopy.

X-ray fluorescence spectroscopy can detect these pigments and paints where the 'holy eye' is no longer able to do so.

Then, in 1984, he was the first to detect cancer using the native fluorescence spectroscopy of tissue without extrinsic dyes.

Atomic fluorescence spectroscopy measures this emitted light.

A filter fluorometer is a type of fluorometer that may be employed in fluorescence spectroscopy.

Most commonly used is dye fluorescence spectroscopy with Sypro Orange dye.

Fluorescence spectroscopy - for detecting structural rearrangements, as well as interactions of biomolecules.

At Imperial College, he created a new research group to work on analytical atomic absorption and atomic fluorescence spectroscopy.

Emission spectrum (fluorescence spectroscopy)

Electronic excitations are studied using visible and ultraviolet spectroscopy as well as fluorescence spectroscopy.

Single molecule fluorescence spectroscopy uses the fluorescence of a molecule for obtaining information on its environment, structure, and position.

In 1981 Alfano used fluorescence spectroscopy and time-resolved kinetics to detect cavities in human teeth.

The discovery was made using X-ray absorption fluorescence spectroscopy (XAFS).

He investigated the use of laser induced tissue fluorescence spectroscopy to diagnose rejection in transplanted cardiac tissue.

Thus, if making a rapid survey of the major elements in a group of coins, one might use X-ray fluorescence spectroscopy or a scanning electron microscope.

Methods that might be used for the preliminary analysis include spectroscopic methods, such as infrared spectroscopy or x-ray fluorescence spectroscopy.

I will describe two techniques that employ the method known as resonance fluorescence spectroscopy (RFS) for determining atomic transition energies.

The presence of the model drug was established by fluorescence spectroscopy and the same holds for the analysis of the model drug released from the nanotubes.

Time-resolved fluorescence spectroscopy is an extension of fluorescence spectroscopy.

Other techniques to potentially identify dysplastic epithelium that could then be sampled extensively include chromoendoscopy [31] and laser-induced fluorescence spectroscopy.

Fluorescence spectroscopy aka fluorometry or spectrofluorometry, is a type of electromagnetic spectroscopy which analyzes fluorescence from a sample.