Sample and solve your toughest analytical challenges with minimal time investment — and often with only one click. The Thermo Scientific™ Nicolet™ iS™10 FT-IR Spectrometer offers the highest confidence in materials identification and verification. Just load your sample, generate the spectrum and press print.
Designed for rugged, precise and fast-paced operation, the Nicolet iS10 FT-IR Spectrometer simplifies laboratory data collection, combining advanced technology with easy operation for quality performance across technicians of any skill level.
The NIRQuest512 uses a high-stability, 512-element Hamamatsu Indium Gallium Arsenide (InGaAs)-array detector in a compact optical bench with two-stage thermoelectric cooler and ultra low-noise electronics.
•Robust – deep thermoelectric cooling down to -20 °C for low dark current
•Fast – great for online applications, chemometric models that require high s:n
•Modular – configurable with a range of light sources, fibers, probes and other accessories for your specific application
Nicolet NXR 9650 FT-Raman Spectrometer Thermo Scientifics’ Nicolet NXR 9650 FT-Raman spectrometer is capable of producing high-quality Raman measurements using high-speed scanning, sample mapping, screening applications, and kinetic analysis. The Nicolet NXR 9650 FT-Raman can measure organic and inorganic samples using a spectral range down to 100cm-1 which is advantageous for inorganic samples where bands are typically observed at low frequencies. Measurements of samples can be taken directly through clear glass bottles, jars, vials and tubes.
PerkinElmer's Optima 3300 is a compact, bench-top, dual-view ICP-OES with full-wavelength-range.
The spectrometer is a polychromator versus a monochromator meaning that more than one emission wavelength can be monitored in a parallel fashion. Six thousand emission wavelength lines that include the major emission lines for 72 of the 110 elements in the periodic chart can be monitored simultaneously. The inert gases, halogens, and certain rare earth metals cannot be detected with this instrument.
The Agilent GCMS characterizes products of polymerization reactions. For instance, unreacted monomer content can be measured to determine polymerization kinetics. The mass spectrometer is equipped with Electron ionization (EI) and has a mass range of 1.6 to 800 amu. This system is also equipped with a 100 sample autosampler for automated sample introduction and an automated data system for instrument control, data acquisition and analysis. It also contains an electronic library for unknown compound searching and identification.
Circular dichroism is a spectroscopic technique that measures the difference in the absorption of left-handed and right-handed circularly polarized light. The difference in the absorption between left and right circularly polarized light is due to a molecule’s structural asymmetry. The Pistar-180 CD spectrometer can be used to make measurements in the far-UV to NIR spectral regions (180-1000 nm) at variable temperature. The Pistar 180 is also equipped for absorbance, total fluorescence and partial fluorescence, and stop-flow kinetics measurements.
A triple-quadrupole mass spectrometer, also known as QqQ, is a tandem MS method in which the first and third quadrupoles act as mass filters and the second causes fragmentation of the analyte through interaction with a collision gas—it is a radiofrequency-only quadrupole, and can be used in either SIM or scan mode. The method can be used to obtain structural information or for quantitation. For structural mass spec, a common sequence is product ion scan, precursor ion scan, and neutral loss scan, followed by selected reaction monitoring (SRM) or multiple reaction monitoring (MRM).