Blog
DMS Characterisation using Hiden Analytical’s MIMS Technology
The role of Membrane Inlet Mass Spectrometry (MIMS) in the analysis of Dimethyl Sulfide (DMS) across oceanic and agricultural domains. Introduction...
Why is Catalyst Research Central to Achieving Hydrogen Energy?
Catalyst research offers a vital contribution to the production of hydrogen energy. Green hydrogen has so much potential to make an impact on the...
Using the Hiden HPR-40 DSA System to Characterize COF Development: A New Approach with Real-time Mass Spectrometry
Covalent Organic Frameworks (COFs) have been making waves in the world of material science and gas separation research. These porous crystalline...
Conducting Real-Time Electrochemical Analyses of CO2 Reduction Products
The quest for sustainable energy solutions has led to the exploration of innovative techniques in electrochemistry. One such promising avenue is the...
Characterising Carbon Conversion Catalysts with Bench-top Mass Spectrometers
A carbon conversion catalyst accelerates the chemical reactions that transform carbon dioxide (CO2) into valuable outputs like fuels and chemicals....
How Mass Spectrometers Can Help Determine Authenticity in Agrifoods
In the continuously evolving landscape of food and agriculture, ensuring the integrity and authenticity of food products remains paramount. One...
Characterizing Air Purification Plasmas with the Hiden HPR-60 MBMS
The quest for pure, pollutant-free indoor air is a priority in our modern age. Advanced air purification technologies have risen to the forefront to...
Exploring the Crucial Role of Hydrogen in Steels
Hydrogen's unique behaviour in metals, particularly in steels, plays a pivotal role in various scientific and industrial applications. Notably,...
What is On-line Electrochemical Mass Spectrometry?
On-line Electrochemical Mass Spectrometry (OEMS) is an advanced analytical technique that combines electrochemical methods with mass spectrometry....