A fluorescence spectrometer is a device to detect and analyze organic compounds. Used in biology, chemistry, and environmental science laboratories, the fluorescence spectrometer measures the fluorescence of a molecule to gather information about its components and chemical environment. The two main types of fluorescence spectrometers are filter fluorometers, which use filters to isolate the different types of light, and spectrofluorometers, which isolate the types of light with diffraction grating monochromators. When choosing a fluorescence spectrometer, consider the wavelengths it can analyze, the time analysis takes, and the amount of sample needed for analysis.
Find, compare, and request a quote for fluorescence spectrometers across leading suppliers at Labcompare; including access to product citations, related published figures, and first-hand reviews from our scientific community.
|  |  |
| Company | Edinburgh Instruments Ltd | Edinburgh Instruments Ltd |
| Item | FLS1000 Photoluminescence Spectrometer | LP980 Spectrometer |
| Citations | | |
| Catalog Number | FLS1000 | LP980 Spectrometer |
| Price | | |
| Description | The FLS1000 Spectrometer sets the standard in both steady state and time-resolved photoluminescence spectroscopy for both fundamental research and routine laboratory applications.
The system is a modular fluorescence and phosphorescence spectrometer for measuring spectra from the ultraviolet to The FLS1000 Spectrometer sets the standard in both steady state and time-resolved photoluminescence spectroscopy for both fundamental research and routine laboratory applications.
The system is a modular fluorescence and phosphorescence spectrometer for measuring spectra from the ultraviolet to the mid-infrared spectral range (up to 5,500 nm), and lifetimes spanning from picoseconds to seconds. All of this can be achieved through various upgrade routes, either at the time of order or in the future.
Whether you are studying photophysics, photochemistry, biophysics, biochemistry, material or life sciences, the FLS1000 will enable you to reliably and accurately measure luminescence spectra and kinetics using state-of-the-art sources, detectors, acquisition techniques, quality optics and precision mechanics. The large sample chamber will house practically any type of sample accessory.
High sensitivity is a prerequisite for measurements of low sample concentrations, small sample volumes or low sample quantum yields. The instrument’s guaranteed sensitivity of >35,000:1 for the standard water Raman measurement using the SQRT method is unmatched in the industry.
The FL1000 has a USB interface and all modes of operation are controlled by ONE data acquisition module and ONE all-inclusive Fluoracle software package for data acquisition and analysis. Light source, detector, grating, slits, polarisers are all computer-controlled for accurate and precise measurements.
Features: - New Fluoracle® software package – easily accessible user interface and updated features
- Higher Resolution – new 325 mm focal length monochromators provide superb accuracy and excellent stray light rejection with minimum step size
- Faster measurements – increased scan speeds and leading performance
- Increased automation – ease of use for even the most complex configurations
... Read More | At the heart of the LP980 is a fully integrated and sophisticated transient absorption spectrometer. It uses the pump-probe technique for measuring transient kinetics and sepctra. In kinetic mode (K) a single point detector is used to measure the transient kinetics at a single wavelength (spectra At the heart of the LP980 is a fully integrated and sophisticated transient absorption spectrometer. It uses the pump-probe technique for measuring transient kinetics and sepctra. In kinetic mode (K) a single point detector is used to measure the transient kinetics at a single wavelength (spectra can be built up by automated scanning over a wavelength range and slicing the data). In spectral mode (S) a gated intensified CCD is used to capture the whole spectrum in the presence and absence of the pump laser pulse, meaning the whole spectrum can be generated after one laser pulse. The LP980 spectrometer has a dual sample chamber that enables users to reliably and accurately measure transient chemical and biological species up to 2.55 µm using the pump-probe technique AND laser-induced fluorescence lifetimes down to nanosecond time ranges.
Transverse sample excitation geometry comes as standard. Thin-film, diffuse reflection, fluorescence and phosphorescence lifetime measurement accessories are available as options.... Read More |
| Wavelength Range | Emission Wavelength Range 160 nm to 5500 nm | 200 nm – 870 nm |
| Wavelength Accuracy | 0.2 nm | Inquire |
| Resolution | 0.05 nm | Inquire |
| Signal-to-Noise Ratio | > 35,000:1 FSD | Inquire |
| Applications | Inquire | A broad range of chemical, physical and biological applications. |
| Detector(s) | Photomultipliers (UV - NIR), Analogue (NIR - MIR) | Varies |
| Get Quote | | |