Fluorescence Spectrophotometer- Lasany (LI-4100)

Fluorescence Spectrophotometers provide valuable insights into fluorescent compounds’ structural and functional properties and enable researchers to perform sensitive and selective analyses.

Fluorescence Spectrophotometer is a scientific instrument used to measure the fluorescence properties of a substance. It operates based on the principle that certain compounds, when exposed to light of a specific wavelength, absorb that light energy and then emit light of a longer wavelength, a phenomenon known as fluorescence.

Light Source: Fluorescence spectrophotometers typically use a high-energy light source, such as a xenon lamp or a mercury arc lamp, to provide the excitation light. This light source emits light across a range of wavelengths.

Monochromators: These optical filters select specific wavelengths of light from the light source. In a fluorescence spectrophotometer, there are typically two monochromators: one for selecting the excitation wavelength and the other for selecting the emission wavelength. This allows researchers to control the specific wavelengths of light used for excitation and detection.

Sample Compartment: This is where the sample to be analyzed is placed. The sample is typically contained in a quartz cuvette, which is transparent to the wavelengths of light used in fluorescence spectroscopy.

Detector: After the light source excites the sample, it emits fluorescence at longer wavelengths. The detector in the spectrophotometer measures the intensity of this emitted fluorescence. Photomultiplier tubes (PMTs) are commonly used as detectors due to their high sensitivity to low levels of light.
Data Processing and Display: The signals from the detector are processed by the instrument’s electronics and then displayed on a screen or recorded for further analysis. This data can provide valuable information about the properties of the sample, such as its concentration or chemical composition.