Content hub
From application notes to blogs, news items to infographics, we've got a wealth of advice about VOC and SVOC analysis that we'd like to share with you. Simply use the search function or use the drop-down selectors to filter by content type, sampling method and/or application area to discover more.
'How to' video
How to collect a sample using the Micro-Chamber Thermal Extractor
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'How to' video
How to use the calibration tools for the Micro-Chamber/Thermal Extractor
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'How to' video
How to use the Micro-Chamber/Thermal Extractor SPF cutter
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'How to' video
How to replace the focusing trap on the TD100-xr
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'How to' video
How to replace the focusing trap on the UNITY-xr
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'How to' video
How to replace the fused silica transfer line to the GC
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'How to' video
How to change Split tube O-rings on the TD100-xr and UNITY-xr
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Application note
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Completely cryogen-free monitoring of PAMS ozone precursors, TO-15 air toxics and OVOCs in ambient air in a single run
Application Note 146
Application note
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Extending whole-air monitoring: Simultaneous cryogen-free analysis of PAMS ozone precursors and TO-15 air toxics from canisters in accordance with new Chinese air-monitoring regulations
Application Note 145
Application note
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A technical guide to the analysis of VOC and FOG emissions from automotive interior materials by direct desorption TD–GC–MS in accordance with VDA 278
Application Note 142
Application note
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Analysis of VOC and FOG emissions from automotive interior materials by direct desorption TD–GC–MS in accordance with VDA 278
Application Note 141
Application note
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Quantitative analysis of airborne semi-volatile flame retardants using sorbent tube sampling with TD–GC–MS
Application Note 140
Application note
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High-performance analysis of polycyclic aromatic hydrocarbons (PAHs) by TD–GC–MS: Method validation and case-study
Application Note 139
Application note
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A robust TD–GC–MS method for the determination of trace-level phthalate esters in air – Method validation and field study
Application Note 138
Application note
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Quantitative determination of semi-volatile polychlorinated biphenyls (PCBs) using TD–GC–MS
Application Note 137
Application note
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The performance of thermal desorption for the quantitative analysis of long-chain hydrocarbons
Application Note 136
Application note
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The complementary roles of dynamic headspace and sorptive extraction in the analysis of fragranced consumer products using TD–GC–MS
Application Note 135
Application note
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Rapid forensic analysis of fire debris using headspace sampling onto sorbent tubes with TD–GC–MS
Application Note 134
