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Analytical software for microplastics analysis
The F-Search MPs allows users to easily identify and quantify unknown microplastics (MPs) in the environment, and it consists of a sophisticated search program and mass spectral libraries of pyrolyzates. The software is used with the data obtained by pyrolysis-gas chromatography/mass spectrometry and the analytical process is very easy and straightforward. F-SEARCH MPs is compatible with all major GC/MS systems equipped with Frontier Lab analytical Pyrolyzer.
The creation of calibration curves and quick quantifi cation is done automatically for the registered plastic types using external or internal standards. A reference polymer mixture in inorganic diluents is also included for easy weighing. F-Search MPs automatically performs quantifi cation, and the results are instantly reported for the environmental MPs.
Twelve commonly used polymers are registered in the libraries. Also, the software allows to establish user’s own libraries.
Registered polymers: Polyethylene, Polypropylene, Polystyrene, ABS (Acrylonitrile-butadiene-styrene resin), SBR (styrene-butadiene rubber), PMMA (Polymethyl methacrylate), Polycarbonate, Polyvinyl chloride, Polyurethane (MDI type), PET (Polyethylene terephthalate), Nylon-6, Nylon-66.
More information online:
ilmt.co/PL/WyqQ 57996pr@reply-direct.com
Versatile system removes FID response variability
Using a series of post-column reactions, the Polyarc System converts all analytes to methane for detection with GC-FID. This provides the FID a universal and uniform carbon response with a 7-order of magnitude linear range from <100 ppb to 100% for nearly all organic compounds. The Polyarc System improves laboratory workflows and efficiencies by removing the variable response of the FID. It gives scientists the capability to determine purity, quantify unknowns, qualify products, investigate, improve development and more in a simple, fast and more economical way that is transforming the industry.
The Polyarc system is the fi rst commercial technology of its kind. The device uses proprietary technologies including novel catalysts, a specially designed 3D-printed micro reactor, and fast seamless integration into existing equipment. The optimised internal design and catalyst microstructure maintains separation
performance and peak shape. Chromatographers can expect the same resolution with conversion rates greater than 99.9% to methane. The careful selection and robust catalyst design enables the analysis of a wide variety of compounds including a range of heteroatoms, compounds of various sizes, and samples containing common poisons (e.g., S).
A truly universal carbon response transforms how GC-FID analysis can be done. It provides increased sensitivity for highly substituted organic, which historically have not been compatible with FID. Compounds such as formaldehyde, formic acid, carbonyl sulphide, and formamide that have previously been diffi cult to detect trace levels with GC-FID, can now be seemly analysed. Another benefi t is reduced need for time- consuming calibrations with diffi cult to acquire standards. Removing numerous calibrations from your analysis will not only streamline laboratory work, but also reduce chemical inventory. The only remaining variability in the GC system is the sample introduction, which is why the Polyarc System is frequently used for method development. The Polyarc System has had widespread acceptance across multiple industries by leading GC experts.
Contact JSB today and learn how you can change your way of conducting GC-FID. More information online:
ilmt.co/PL/Ey9R
57830pr@reply-direct.com
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