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Chemiluminescence is an innovative solutions for the characterization and prediction of long term oxidative reactions.
Chemiluminescence Instrument
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For the analysis of oxidative reactions
The Chemiluminescence Instrument is designed based on a modular construction concept. Central is a basic instrument, allowing the actual chemiluinescence analysis. Additional needs of our clients can easily be addressed by upgrading with innovative hardware modules.
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For the analysis of oxidative reactions
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For the analysis of oxidative reactions
The basic instrument contains all components required for the chemiluminescence-based analysis. It was designed for applications in academia, industrial research & development as well as production, for the thorough assessment of stability, safety and quality control. The core components consist of the precision furnace cell, a highly sensitive light detector and optical components. The embedded computer allows communication with the user interface by TCP/IP.
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For the analysis of oxidative reactions
The possibilities of the basic instrument can easily be upgraded with our innovative modules to suit your individual needs:
To allow differentiation of characteristic decay reactions (bimolecular peroxide recombination, decay of hydro-peroxides etc), our spectrometer module resolves the CL emissions into light components.
Atmospheric humidity can affect the decay of organic substances. This can be taken into account using the humidifier module. It allows the conditioning of the reaction atmosphere and is required when the experimental conditions have to simulate the day-to-day exposure as closely as possible.
In particular for applications outdoors, photo-oxidation carries an important weight. This can be implemented using the photo-oxidation module.
Protection from loss of data due to electric blackouts can be assured using the uninterruptible power supply. It is particularly recommended for users planning long term experiments (it acts also like a surge protection).
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For the analysis of oxidative reactions
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