Content hub
A wealth of advice and information on VOC and SVOC analysis.
GC–MS Sampling Strategies for VOCs in Air
GC–MS Sampling Strategies for VOCs in Air
The inside story of the Markes TC-30 tube conditioner
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TC-30 Specification Sheet
Tube conditioner
Expanding analytical capabilities for complex food aroma profiling
Odournet, Spain
Next-generation tube conditioning: Why reliable results start with clean tubes
Next-generation tube conditioning: Why reliable results start with clean tubes
Mastering PFAS analysis according to ASTM D8591: A validated workflow for trace-level FTOH analysis
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Compliance and beyond: TD–GC–MS approaches for evolving air quality monitoring
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'Greener methods, smarter tools, deeper insight': Professor Elia Psillakis on modern sample preparation
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PFAS in air: A practical toolkit for real-world applications
Laboratories face an urgent need to monitor volatile PFAS in air and consumer products. In this session, industry experts from Markes present an end-to-end integrated sampling and analysis toolkit for these emerging applications in air and materials.
Embedding versatility: How Biochemie Lab future-proofed its environmental air analysis
Biochemie Lab, Florence, Italy
Mastering sorptive extraction for GC–MS
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PFAS in air: Validating ASTM D8591 for the measurement of airborne fluorotelomer alcohols
Application Note 179
Aroma profiling and sensory analysis: The role of volatile organic compounds in foods
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Identifying olive oil quality markers by HiSorb and GC–MS with ChromCompare+ data-mining
Application Note 294
Enhanced detection of adulterants in coconut oil with HiSorb high-capacity sorptive extraction and Smart Subtract
Application Note 293
Overcoming limitations in food analysis with cryogen-free trap focusing
LCGC: The Column, Sept 2025
Breath, biofluids, and beyond: Advancing biomarker discovery toward non-invasive diagnostics
Researchers from Imperial College, London present how advanced analytical workflows originally developed for breath analysis are now being extended across diverse biological matrices.
TD–GC–MS in practice – key takeaways on sampling and analysis
From Markes and Agilent Technologies joint workshop – Improving GC–MS capability: sampling strategies and analytical techniques for trace volatile analysis – in Germany (July 2025)
Snow DUMP-ing: Using direct TD–GC–MS to tackle urban snow and microplastic pollution
A solvent free, direct thermal desorption (TD) GC-MS approach for analysing particulates in snow, eliminating toxic solvents and reducing sample prep time.
Using automated sorptive extraction to detect trace-level odour-active compounds in plant-based foods
Aroma Chemistry Group, Research Institutes of Sweden (RISE)
Detection of ethylene oxide in medical equipment by headspace–trap with multi-step enrichment and GC–MS
Application Note 292
A straightforward method for the analysis of PAHs in water by high-capacity sorptive extraction and TD–GC–MS
Application Note 291
Why ASTM D7892-2025 is a game-changer for hydrogen purity testing
30 July 2025
Seven surprising aroma insights from "The Science of Taste" at Greenwich
Exploring the science of flavour at Greenwich | 21 July 2025
