Evolved Gas Analysis (EGA) is the perfect tool for characterizing the thermal behavior of organics, inorganics or polymers in more detail, elucidating the chemistry behind the processes.
The PERSEUS® STA 509 Jupiter® is an unmatched alliance between two successful instruments: the NETZSCH st/en-US/blog/2024/the-new-NETZSCH-sta-509-jupiter-series-and-its-highlightsand the FT-IR spectrometer by Bruker Optics. Its design is unprecedented and sets a benchmark for state-of-the-art coupling systems.
Due to its robustness, high performance, compactness and attractive price, this combination instrument has the potential to find its way into any laboratory – be it in universities or industry, across the spectrum from inorganics to polymers.
Any existing NETZSCH STA 509 Jupiter® system can be upgraded to the PERSEUS®.
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Affordable Gas Analysis
The unrivaled instrument alliance serves as an innovative coupling technique, even for a narrow budget. It has what it takes to become an integral part of any laboratory and indispensible for its future needs.
No Liquid Nitrogen required
The DLaTGS (DLaTGS = deuterated L-alanine doped triglycine sulphate) detector used does not require any liquid nitrogen cooling. This system is therefore particularly well-suited for test runs with an autosampler (ASC) or for measurements of longer duration.
No Separate Transfer Line
The built-in heated gas cell is directly connected to the gas outlet of the furnace via a heated tube. The low volume of this short gas path guarantees fast response and is quite advantageous in cases where condensable evolved gases are present.
Space-Saving Design
No separate FT-IR spectrometer is necessary, the footprint of the PERSEUS® STA 509 Jupiter® coupling is identical to that of an STA 509 Jupiter® alone. This makes the coupled system ideally suited for labs in which space is scarce.
The PERSEUS® STA 509 Jupiter® can be employed for the following application areas:
- Decomposition reactionA decomposition reaction is a thermally induced reaction of a chemical compound forming solid and/or gaseous products. Decomposition
- Solid-gas reactions
- Compositional analysis
- Evaporation, outgassing
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Technical Data
Heating of transfer tube
Heating of gas cell
software-controlled
Detector
Gas cell length/volume:
70 mm / 5.8 ml
(no mirror inside, beam conforming design)
Spectral range of FT-IR data:
350 cm-1 to 8000 cm-1 KBr windows
Gas cell:
Window KBR, sealing Viton©
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Application Literature
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