RamanLab
Our Story
RamanLab has constructed an Open-Architecture Raman System within a darkroom setting, capable of applying a wide range of experimental techniques. This system utilizes a high-spec spectrometer in combination with a CCD camera that has a quantum efficiency of greater than 60 to 90%, enabling the measurement of Raman spectra with high resolution across the visible to near-infrared regions for a variety of organic and inorganic materials.
Equipped with five distinct laser types, Raman mapping devices, and apparatus for conducting temperature-dependent experiments, we are committed to providing faithful collaboration on research projects of both short-term and long-term durations, as well as simple measurement tasks.
CCD Camera
Andor Newton CCD
TE cooling to -100°C
Negligible dark current
Pixel size for high resolution spectroscopy
Active pixels (μm): 1024 x 256
Pixels size (μm): 26 x 26
Spectrometer
Andor Shamrock 500i
Image astigmatism correction
Triple exchangeable grating turret
Aperture ratio: F/6.5
Focal length: 500 mm
Wavelength Resolution: 0.06 nm @ 633 nm
Lasers
488 nm 532 nm /671 nm 785 nm / 830 nm
Mapping Stage
Motorized xyz stage
Glavano-mirror scanner
Temperature Control Equipment
Temperature range
-195 ~ 600 °C
Database
Wiley Science Solution
The Raman Lab has invested in access to the KnowItAll Software offered by Wiley, which provides a comprehensive database of over 25,000 Raman spectra.
Wiley is a renowned leader in the field of Raman spectral data, and its collection boasts the world's largest and highest-quality compilation of Raman spectra, including Sadtler data.