Multispectral imaging systems are used by the food industry, the pharmaceutical industry, and in medical, biology, and chemistry labs for analysis and quality control. Types of multispectral imaging include NIR (near infrared), which can provide a quick and accurate analysis of samples within the 700–2500 nm wavelength range, and Raman, which measures the scattering of near infrared, visible, or near ultraviolet light. In both cases, the photons that are emitted and absorbed by the sample allow identification of specific molecules.
Considerations for purchasing a Multispectral Imaging System
Sensitivity, specificity, and resolution of images can vary between chemical imaging systems. Another feature to be aware of is what type of imaging the system is capable of and whether other types of imaging can be integrated into the system.
Discover and compare Multispectral Imaging Systems:
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Company | Mettler-Toledo GmbH | Mettler-Toledo GmbH |
Item | ReactIR 45P In Situ Process FTIR Spectroscopy | ReactIR 15 Spectroscopy |
Catalog Number | 14474487 | 14000003 |
Price | | |
Description | In situ reaction analysis with real-time FTIR process analytical technology. Transferring a chemical process from the lab to manufacturing can be difficult. In situ process FTIR (Fourier Transform Infrared Spectroscopy) with ReactIR 45P provides in-depth reaction understanding, identifies process In situ reaction analysis with real-time FTIR process analytical technology. Transferring a chemical process from the lab to manufacturing can be difficult. In situ process FTIR (Fourier Transform Infrared Spectroscopy) with ReactIR 45P provides in-depth reaction understanding, identifies process upsets and determines reaction initiation, progression and endpoint. ReactIR 45P enables processes to be successfully moved from the lab to the pilot plant and production. By tracking critical parameters in real-time, process design and quality is improved and variation in continuous processes as well as batch failures are eliminated. Sampling technology is available for almost all chemistries and reactions – and for under any process conditions. These probes and sensors are suitable for studying hydrogenations, Grignard reactions, halogenations and acid chloride reactions as well as many other chemistries. ReactIR 45P Process FTIR is available for Hazardous (Classified) and Normal (General Purpose) locations.... Read More | In situ reaction analysis with real-time FTIR process analytical technology. Organic chemists and scientists strive to improve the research and development of chemical compounds, synthetic chemical routes and processes. In situ reaction monitoring tracks concentration changes of key reactive and In situ reaction analysis with real-time FTIR process analytical technology. Organic chemists and scientists strive to improve the research and development of chemical compounds, synthetic chemical routes and processes. In situ reaction monitoring tracks concentration changes of key reactive and transient species to understand mechanism pathway, determine kinetics and detect major reaction events. ReactIR 15 is a real-time, in situ mid-infrared based system designed to study reaction progression and provide specific information about reaction initiation, conversion, intermediates and endpoint. The comprehensive nature of the data makes it ideal for real-time process optimization. Sampling technology options enable the successful monitoring of gas or liquid phases under any process conditions such as acidic, corrosive, high pressure chemistries, low temperature. Chemistries include acid chloride formation, grignard formation, and mixed anhydride formation.... Read More |
Type | FT-IR Chemical Monitoring | FT-IR Chemical Monitoring |
Wavelength Range | 650 to 4000 cm-1 | 650 to 4000 cm-1 |
Detector(s) | DTGS, SE MCT | MCT – 24hr (hold time), SE MCT (no liquid nitrogen required) |
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