Designed for product and process development, the Rxn-10 probe is the workhorse of the Raman probe portfolio. It is trusted to deliver high performance Raman measurements across a wide spectral range. It is also compact, lightweight, and flexible, offering multi-purpose convenience for solids and liquids analysis in the laboratory environment. The Rxn-10 probe accepts a variety of interchangeable optics, making it a highly versatile and easily adaptable instrument in your laboratory toolbox.
Chemical: reaction monitoring, blending, catalysis, hydrocarbon speciation, process unit optimization
Verhoog de veiligheid in de fabriek, waarborg de productkwaliteit en optimaliseer de processen. Raman-spectroscopie meet de samenstelling en moleculaire structuur van uw monsters van lab naar proces in realtime.
From time consuming sample analysis to real-time monitoring of critical parameters in fermentation processes thanks to complete solutions from hardware to development and analytical services.
Verhoog de veiligheid in de fabriek, waarborg de productkwaliteit en optimaliseer de processen. Raman-spectroscopie meet de samenstelling en moleculaire structuur van uw monsters van lab naar proces in realtime.
Design: PVC jacketed, proprietary construction Connections: proprietary electro-optic (EO), or FC to EO fiber converter(s) for non-embedded systems Temperature: -40 to 70 °C / -40 to 158 °F Standard length: 5000 mm / 196.86 inch 25000 mm / 984.26 inch Also available in 5000 mm / 196.86 inch increments Minimum bend radius: 152.4 mm / 6 inch
Length
Rxn-10 probe (including fiber cable bend radius): 356 mm / 14.02 inch
Diameter
Rxn-10 probe: 19 mm / 0.75 inch
Working distance
Based on the sampling optic selected
Meetprincipe
Raman spectroscopy
Spectral coverage
Probe spectral coverage is limited by the coverage of the analyzer being used.
Temperature
Temperature, Rxn-10 probe: -10 to 70 °C / 14 to 158 °F
Design: PVC jacketed, proprietary construction Connections: proprietary electro-optic (EO), or FC to EO fiber converter(s) for non-embedded systems Temperature: -40 to 70 °C / -40 to 158 °F Standard length: 5000 mm / 196.86 inch 25000 mm / 984.26 inch Also available in 5000 mm / 196.86 inch increments Minimum bend radius: 152.4 mm / 6 inch
Length
Rxn-10 probe (including fiber cable bend radius): 356 mm / 14.02 inch
Accessory Optics for the Rxn-10 Probe
Technical Information
Engelse versie - 05/2023
New version available in English
System design and specifications for Rxn-10 probe optics:
Raman immersion optics (KIO1),
non-contact optics (KNCO1), bIO-Optics (KLBIO1),
bio multi optics (KRBMO), bio sleeves (KRBSL),
and Raman optic system for single use (KRSU1)
Accessory Optics for the Rxn-10 Probe
Technical Information
Technische informatie (TI)
Engelse versie - 05/2023
New version available in English
System design and specifications for Rxn-10 probe optics: Raman immersion optics (KIO1), non-contact optics (KNCO1), bIO-Optics (KLBIO1), bio multi optics (KRBMO), bio sleeves (KRBSL), and Raman optic system for single use (KRSU1)
Accessory optics for the Rxn-10 Probe
Operating Instructions
Bedieningshandleiding (BA)
Engelse versie - 05/2023
New version available in English
Commissioning, operation, and maintenance details for Rxn-10 probe optics: Raman immersion optics (KIO1), non-contact optics (KNCO1), bIO-Optics (KLBIO1), bio multi optics (KRBMO), bio sleeves (KRBSL) and Raman optic system for single use (KRSU1)
Accessory Optics for the Rxn-10 Probe
Brief Operating Instructions
Beknopte instructie (KA)
Engelse versie - 05/2023
New version available in English
Quickstart guide for Rxn-10 probe optics: Raman immersion optics (KIO1), non-contact optics (KNCO1), bIO-Optics (KLBIO1), bio multi optics (KRBMO), bio sleeves (KRBSL) and Raman optic system for single use (KRSU1)
Advanced process and product control in fermentations -
Raman spectroscopy for composition analysis in a lab
or process
PU (publicatie)
Engelse versie - 03/2022
New version available in English
An overview of Raman spectroscopy analyzer systems (including the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, and Rxn-45 probe), powered by Kaiser Raman technology, for fermentation compositional analysis in a lab or process applicable to biotechnology in the food & beverage industry.
Raman application guide for the life science industry -
Trusted composition analysis for the life sciences
PU (publicatie)
Engelse versie - 04/2022
New version available in English
A guide to our Raman spectroscopy application notes for the Life Science industry (featuring the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, Rxn-20 probe, Rxn-45 probe, Rxn-46 probe, and probe accessory optics (bIO-Optic, Raman single use optic system / SUB, immersion optic, non-contact optic).
Raman flow assembly - Precise composition measurement of
high-speed, low-volume samples in downstream bioprocessing
PU (publicatie)
Engelse versie - 05/2023
New version available in English
An overview of the Raman flow assembly (flow bench and flow cell) used with the Rxn-10 probe in conjunction with a Raman Rxn2 analyzer and a Raman flow assembly calibration and verification kit for downstream bioprocessing (powered by Kaiser Raman technology).
Raman calibration and verification kits - Everything needed to
calibrate and verify your Raman analyzer system for lab-to-process
scalability
PU (publicatie)
Engelse versie - 12/2023
New version available in English
An overview of the Raman calibration and verification kits for the bio multi optic / single use optic and the Raman flow assembly (includes the flow bench and flow cell). These kits are to be used in conjunction with the Rxn-10 probe and Raman Rxn2 / Rxn4 analyzer for upstream and downstream bioprocessing (powered by Kaiser Raman technology).
Lab-to-process monitoring & control in Life Sciences -
Reliable measurement of bioprocess physical and
chemical properties
PU (publicatie)
Engelse versie - 04/2024
New version available in English
A combined product list of analysis offerings from both Optical Analysis and LIquid Analysis for bioprocessing applications in the life science industry (including Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, bio multi optic and bio sleeve, Raman flow assembly, Rxn-45 probe, Rxn-46 probe, Raman optic system for single use, Memosens CPS61E, Memosens COS81E, OUSBT66, Memosens CPS61E, Memosens CPS77E, Memosens CLS82E, OUSAF44, Memosens CPS11E, Memosens CLS16E, TOC Analyzer CA79, Liquiline transmitter platform, and Memobase software).
Raman spectroscopy food & beverage application guide -
Trusted technology for composition analysis in a laboratory
or process environment
Competentiebrochure (CP)
Engelse versie - 02/2022
New version available in English
A guide to Raman spectroscopy application notes for the food & beverage industry (featuring studies using the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, Rxn-20 probe, Rxn-45 probe, and the immersion optic and non-contact optic).
Raman technology in bioprocessing - Scalable in situ bioprocess
monitoring enabling advanced process control
Innovatie (IN)
Engelse versie - 06/2023
New version available in English
An overview brochure about our Raman spectroscopy analyzer and probe portfolio, powered by Kaiser Raman technology, for the bioprocessing / biopharmaceutical industry (including the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, Rxn-45 probe, Rxn-46 probe, and probe accessory optics (bIO-Optic, Raman single use optic system, bio multi optic with bio sleeve, and Raman flow assembly), powered by Kaiser Raman technology.
Raman technology for the chemical industry - Reliable
composition measurement of chemical process streams
Innovatie (IN)
Engelse versie - 10/2021
New version available in English
An overview brochure about our Raman spectroscopy analyzer systems, powered by Kaiser Raman technology, for the chemical industry (includes the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Raman Rxn5 analyzer, and the Raman Rxn-10 probe, Raman Rxn-20 probe, Raman Rxn-30 probe, Raman Rxn-40 probe, and Raman Rxn-41 probe).
Raman single-use technology for bioprocessing - Real-time composition
analysis for biopharmaceutical development and manufacturing
Innovatie (IN)
Engelse versie - 12/2023
New version available in English
An overview brochure about our Raman spectroscopy multi use and single use bioprocessing portfolio (including the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, Rxn-46 probe, Raman single use optic system, bio multi optic, and bio sleeve), powered by Kaiser Raman technology.
Raman spectrographic probes - Robust optical measurement
of chemical composition
Innovatie (IN)
Engelse versie - 10/2021
New version available in English
An overview brochure about our Raman spectroscopy probe portfolio including the Rxn-10 probe, Rxn-20 probe, Rxn-30 probe, Rxn-40 probe, Rxn-41 probe, Rxn-45 probe, Rxn-46 probe, and probe accessory optics (bIO-Optic, Raman single use optic system / SUB, immersion optic , non-contact optic), powered by Kaiser Raman technology.
How Raman ensures product quality from lab-to-process in biopharma
White paper (WP)
Engelse versie - 02/2022
New version available in English
A whitepaper about using Raman spectroscopy for lab-to-process chemical composition measurement in biopharmaceutical manufacturing (applicable to the Endress+Hauser Raman analyzer and probe bioprocessing portfolio, powered by Kaiser Raman technology (including the Raman Rxn2 analyzer, Raman Rxn4 analyzer, Rxn-10 probe, Rxn-45 probe, Rxn-46 probe, bIO-Optic, Raman single use optic system, immersion optic , non-contact optic).
Monitoring CaCO3 polymorph formation in the presence
of polymeric additives
AI (applicatiebericht)
Engelse versie - 08/2021
New version available in English
This note demonstrates the use of Raman spectroscopy to monitor the selective crystallization of polymorphs of Calcium Carbonate (CaCO3) in the presence of polymeric additives.
Monitoring a pharmaceutical crystal transformation in situ
AI (applicatiebericht)
Engelse versie - 09/2021
New version available in English
This note describes the use of in situ Raman spectroscopy to probe the kinetics of a hemihydrate, transforming to an anhydrous polymorph and then to a different polymorph.
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