HPR-20 R-D Analyser
Description
A triple filter mass spectrometer is included providing improved resolution and abundance sensitivity with an ultimate detection limit of 5 ppb subject to spectral interference. The HPR-20 R&D is offered with a wide range of interfaces for connection to thermal equipment and is configured with Hiden’s heated Quartz Inert Capillary (QIC) for continuous sampling of gases and vapours. Backing and bypass pumping is provided by a high performance scroll pump. Gas sampling is continuous with a gas sample flow rate user configurable/selectable in the range < 1 ml/min to > 20 ml/min.
HPR-20 R-D Analyser
Specifications |
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|---|---|
| Type Of Compound: | Hydrogen, Nitrogen, CO2 (Carbon Dioxide), Oxygen, Argon |
| Detection Technology: | Spectrophotometry |
| Minimum Detectivity: | 5 ppt (parts per trillion) |
Features
Triple filter mass spectrometer
Mass range options 200, 300, 500 or 1000 amu
Enhanced abundance sensitivity
Detection to 5 ppb
APSI-MS soft ionisation mode
Applications
Thermal analysis TA/MS
Catalysis
Fuel cells
CVD / MOCVD / ALCVD
Environmental monitoring
Glovebox monitoring
Gas separation studies
Mud logging (oil exploration)
Near atmospheric XPS, APXPS
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
United Kingdom
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Sold by:
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On FindLight:
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Frequently Asked Questions
The ultimate detection limit of the HPR-20 R&D Analyser is 5 ppb subject to spectral interference.
The gas sample flow rate for the HPR-20 R&D is user configurable/selectable in the range < 1 ml/min to > 20 ml/min.
The mass range options for the triple filter mass spectrometer in the HPR-20 R&D are 200, 300, 500, or 1000 amu.
The applications of the HPR-20 R&D Analyser include thermal analysis, catalysis, fuel cells, CVD/MOCVD/ALCVD, environmental monitoring, glovebox monitoring, gas separation studies, mud logging (oil exploration), and near atmospheric XPS, APXPS.
The advantages of having a triple filter in the mass spectrometer are enhanced sensitivity for high mass transmission and increased abundance sensitivity, as well as enhanced long-term stability with minimized contamination on the mass selective primary filter.