Measuring the Fluorescence Quantum Efficiency of Liquid Samples
Fluorescent substances absorb a characteristic wavelength of that substance and then emit a fluorescent light with a wavelength longer than the absorbed light.The ratio of photons absorbed versus emitted as fluorescent light is referred to as the fluorescence quantum yield or quantum efficiency and is associated with the fluorescence intensity of fluorescent substances. Two methods are used to determine this ratio, either a relative or absolute method. The relative method involves comparison of fluorescence intensity to a standard fluorescent substance with a known ratio to calculate a relative value. On the other hand, the absolute method involves calculating the ratio directly from a fluorescence spectrum measured from the fluorescent substance using an integrating sphere. In this article, the ratio determined by this method is referred to as fluorescence quantum efficiency. The absolute method only involves the measurement sample, which makes it easier than the relative method.
This article describes using an RF-6000 spectrofluorophotometer to determine the fluorescence quantum efficiency.
- Content Type:
- Application
- Document Number:
- LAAN-A-RF-E005
- Product Type:
- Molecular Spectroscopy, Fluorescence Spectroscopy
- Keywords:
- Fluorescence quantum yield, Quantum efficiency, Quinine sulfate., Integrating sphere, Electronics, Electronic, Hydrocarbon Processing Industry (Petrochemical, Chemical), Pharmaceutical, Life Science, RF-6000
- Language:
- English
- File Name:
- jpa415027.pdf
- File Size:
- 2,071kb