Spectrofluorometers are designed to detect and quantify fluorophores. These are fluorescent molecules that, when exposed to light, absorb photons at a characteristic wavelength. Subsequently, they then emit photons at a different and slightly longer characteristic wavelength. Spectrofluorometers contain excitation and emission filters for using different fluorophores. Monitoring the activities of molecules labeled with fluorophores is crucial to many kinds of experiments in cell biology, molecular biology and genetics, pharmaceuticals, and forensics, among many others. Emitted light may be detected by photomultiplier tubes or photodiodes within the spectrofluorometer, depending on the model. In addition, users of spectrofluorometers now have a wide range of high-tech fluorophores from which to choose to complement the features of a Spectrofluorometer, also referred to as fluorimeter. Modern fluorometers and fluorimeters are capable of detection as low as 1 part per trillion.
Find, compare, and request a quote for spectrofluorometers across leading suppliers at Labcompare; including access to product citations, related published figures, and first-hand reviews from our scientific community.
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| Company | Edinburgh Instruments Ltd | Edinburgh Instruments Ltd |
| Item | IR5 FTIR Spectrometer | LP980 Spectrometer |
| Citations | | |
| Catalog Number | IR5 | LP980 Spectrometer |
| Price | | |
| Light Source | Inquire | Flashlamp pumped Q-switched Nd:Yag laser operating at 1064 nm, 532 nm, 355 nm or 266 nm. |
| Wavelength Range | 8000 to 350 cm -1 | 200 nm – 870 nm |
| Wavelength Accuracy | 0.5 cm -1 | Inquire |
| Description | The IR5 is a high-performance benchtop Fourier Transform Infrared (FTIR) spectrometer from the trusted Edinburgh Instruments brand.
The IR5 is the perfect choice for analytical and research applications such as polymer, semiconductor, and pharmaceutical samples, offering simple operation as well The IR5 is a high-performance benchtop Fourier Transform Infrared (FTIR) spectrometer from the trusted Edinburgh Instruments brand.
The IR5 is the perfect choice for analytical and research applications such as polymer, semiconductor, and pharmaceutical samples, offering simple operation as well as fast and accurate results. IR absorption, transmission, reflectance, and infrared photoluminescence can all be measured in the IR5 using only one software package, Miracle™.
Key Features
- Outstanding Performance – High sensitivity and spectral resolution
- Photoluminescence – Fourier Transform Photoluminescence
upgrade with a choice of laser source
- Configurable – Option for a second detector giving
higher sensitivity at selected spectral ranges
- User-friendly – Simple to operate and suitable for all user levels,
from beginner to advanced
- Maintenance-Free – No maintenance required with moisture
control technology
- Miracle Software – Modern, powerful and intuitive software
designed specifically for the IR5
... 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 |
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