The Waters 2475 Multi-Wavelength Fluorescence Detector is a scientific instrument used in analytical chemistry to detect and quantify fluorescent compounds in a sample.
The purpose of the instrument is to measure the intensity and wavelength of fluorescence emitted by the sample after it has been excited by a light source. The detector can measure fluorescence at multiple wavelengths, allowing for the detection of multiple fluorescent compounds in a single sample.
This instrument is commonly used in a variety of applications, including pharmaceutical development, environmental analysis, and biomedical research. It is particularly useful in the analysis of complex mixtures, as it can help to identify and quantify individual components.
Overall, the Waters 2475 Multi-Wavelength Fluorescence Detector is a powerful tool for analyzing fluorescent compounds and can provide valuable insights into the chemical composition of a sample.
Top 3 Competitors
- Agilent 1260 Infinity II Fluorescence Detector
- Shimadzu RF-6000 Fluorescence Detector
- Thermo Scientific Vanquish Fluorescence Detector
5 Best Things:
- Multi-wavelength detection: The instrument can detect fluorescence at multiple wavelengths, allowing for the identification and quantification of multiple fluorescent compounds in a single sample.
- High sensitivity: The detector offers high sensitivity, with a signal-to-noise ratio of up to 1000:1, which enables detection of even low-abundance fluorescent compounds.
- High resolution: The instrument has high resolution, with a spectral bandwidth of 1.5 nm, which provides accurate measurement of peak shape and identification of multiple fluorescent components in complex samples.
- Ease of use: The Waters 2475 features an intuitive interface and easy-to-use software, making it accessible to users with varying levels of experience in analytical chemistry.
- Wide range of applications: The instrument is widely used in a variety of applications, including pharmaceutical development, environmental analysis, and biomedical research. It can be used to identify and quantify fluorescent compounds in a wide range of sample types, from small molecules to large biomolecules.