Czerny-Turner spectroscope Shamrock 500i

Ramanfor researchCCD

Andor’s range of highly versatile spectrographs provide high resolution, high throughput, high modularity, ease of use from the UV to the NIR and SWIR, from macro- to nano-scale, with fluxes down to single photon and time-resolution down to nanosecond. Andor’s spectrograph technology is based on Czerny-Turner, Echelle or Transmission optical designs. Spectrograph features include: High modularity Intelligent motorisation TruRes™ – Highest spectral resolution Adaptive FocusTM technology (patented) Ideal for both or Physical and Life science Czerny-Turner, Echelle & Transmission Optical Spectrographs Andor’s spectrograph family is based on Czerny-Turner, Echelle or Transmission optical designs, and offers a range of highly configurable or highly specialised platforms to best suit your experimental requirements. 500 mm focal length F/6.5 aperture Resolution down to 0.03 nm Dual inputs and outputs Raman Raman is a molecular spectroscopy technique that can provides chemical and structural fingerprint information for a wide range of samples, including for example nanomaterials, polymers, powders, liquids or cells/tissues. Key Raman techniques include: Spontaneous and stimulated Surface Enhanced Raman Spectroscopy (SERS) Surface Offset Raman Spectroscopy (SORS) Tip-Enhanced Raman Spectroscopy (TERS) Coherent Anti-Stokes Raman Scattering (CARS) Luminescence Luminescence spectroscopy is used for a large variety of applications including for example the study of metal complexes, organic LEDs (OLEDs), quantum dots, cell dynamics, stand-off detection of chemical compounds (e.g. explosives) or scintillators properties measurement.