Blog
Understanding the Benefits of MS-Based Detection in TPRx
MS-based detection aligns closely with the scientific goals of TPRx and delivers several distinct advantages.
In Conversation: Andrea Secco on Dissolved Gas Analysis in Water
Dissolved gas measurements are often the difference between suspecting what’s happening in a water system and proving it. Whether you’re tracing and...
Resolving Light-Gas Overlaps for Fusion Exhaust Monitoring: ORNL Testing of Hiden HAL 101X
In support of next-generation fusion diagnostics, Oak Ridge National Laboratory has evaluated Hiden’s high-resolution quadrupole RGA approach for...
Mass Spectrometry for Groundwater Studies
Mass spectrometry for groundwater studies provides real-time detection of transient events and supports reliable, efficient groundwater quality monitoring to help ensure the safety and sustainability of water supplies.
Temperature Programmed Reduction with Quadrupole MS
Temperature Programmed Reduction (TPR) with quadrupole mass spectrometry (MS) addresses a long-standing challenge in catalyst characterisation: the inability to distinguish between hydrogen consumption mechanisms during reduction.
Evolved Gas Analysis for Temperature Programmed Desorption: Resolving Surface Sites in Real Time
Together, temperature programmed desorption and evolved gas analysis connect thermal behaviour to surface structure, enabling site-specific insight under controlled experimental conditions.
First installation of the new ECL Series: HPR-40 DEMS at HI ERN (Erlangen–Nürnberg)
Designed to integrate seamlessly with the HPR-40 DEMS, the ECL Series enables real-time analysis of gases and volatile species during electrochemical experiments.
In Conversation: Colin Robertson, Sales Director, on Nuclear Fusion Research
Nuclear fusion research is rapidly scaling from core science to reactor-relevant engineering, driven by major public funding and accelerating...
Temperature Programmed Oxidation: Mass Spectrometry Strategies for Catalyst Deactivation Studies
Temperature programmed oxidation and mass spectrometry strategies are used for catalyst deactivation studies to characterise coke, sulfur species, and more.
