CRAIC Spectrophotometers & Photometers
CRAIC Spectrophotometers & Photometers
CRAIC Technologies, Inc. is a global technology leader focused on innovations for microscopy and microspectroscopy in the ultraviolet, visible and near-infrared.
The company manufactures quality instruments that offer high-speed precision metrology for the forensic science, biotechnology, semiconductor, geology, nanotechnology and materials science communities.
CRAIC Technologies cutting-edge solutions are exemplified by the video and instruments below.
20/30 Series UV-Vis-NIR Microspectrophotometers
The best performing microspectrophotometer to date
The 20/30 Microspectrophotometer series incorporates the latest technological advances in optics, spectroscopy and software to deliver the best performance in a microspectrophotometer to date. Yet it retains the ease-of-use for which CRAIC instruments are known and represents a further step forward in UV-visible-NIR microspectroscopy.
The 20/30 Microspectrophotometer incorporates many of the latest technologies. Touch screen controls, sophisticated software, calibrated variable apertures and other innovations all point to a new level of sophistication in microanalysis.
Measurements across the UV-visible-NIR range in transmission, absorbance, reflectance, luminescence, and fluorescence are possible on sub-micron samples to those well over a 100 µm across.
And while microspectra are being acquired, the sample may be simultaneously viewed in the deep UV and NIR with the high-resolution digital imaging system or in the visible through the research grade eyepiece optics.
Images and time-resolved spectral data are acquired and recorded in one rapid seamless operation from across the instrument's extended spectral range. The 20/30 Microspectrophotometer is simple to use, the measurements are non-destructive, and the quality of the spectral data is unmatched.
The 20/30 is more than just a scientific instrument, it is the solution to your analytical challenges.
CRAIC 20/30 XL™
CRAIC 20/30 PV™ HO
FLEX™ UV-Visible-NIR Microspectrophotometer
A cost effective solution for UV-Visible-NIR microspectroscopy and microscopic imaging
FLEX™ from CRAIC is a full-featured yet flexibly configured instrument that incorporates UV-visible-NIR optics, spectrophotometers, digital imaging, and software...all tied together with the Lightswitch by CRAIC™ optical multiplexer.
The FLEX™ microspectrophotometer utilises tested technologies to allow you to measure UV-visible-NIR range transmission, absorbance, reflectance, emission and fluorescence spectra of microscopic sample areas. Simultaneous imaging via a high-resolution colour digital camera system or eyepieces is standard, while additional features can include measuring the refractive index of microscopic samples as well as microcolorimetry and microspot thin film thickness measurements.
508 PV™ Microscope Spectrophotometer
Adds advanced spectroscopy to your microscope
The 508 PV™ UV-visible-NIR spectrophotometer is designed to be added to an open photoport of a microscope or probe station for non-destructive analysis of the spectra of many types of microscopic samples.
The 508 PV™ features the cutting edge Lightblades™ spectrophotometers from CRAIC Technologies. These can acquire spectra of microscopic sample areas by absorbance, reflectance, polarisation, luminescence and fluorescence, in addition to high-resolution colour images, when attached to properly configured microscopes via the proprietary optical interface.
The 508 PV™ is an effective means to upgrade a microscope to the latest hardware and software microspectrophotometer.
CRAIC 508 PV™
|Active Vibration Control Products |
Passive Vibration Control Products
A number of papers have been published by scientists around the globe who have used a CRAIC Technologies microspectrophotometer in their research. Here are some examples:
- Reconfigurable photonic metamaterials
- Two-dimensional control of light with light on metasurfaces
- A cryptoendolithic community in volcanic glass
- Insertion of Trivalent Lanthanides into Uranyl Vanadate Layers and Frameworks
- Flexible color learning in an invertebrate predator
- UV and visible wavelength reflectance spectroscopy of aerogel and of stardust grains