GCxGC Anwendungshinweise
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Determining MOSH-MOAH with GCxGC-TOFMS
Discover unparalleled resolution and identification capabilities for analyzing food contaminated by mineral oil hydrocarbons (MOH). This application note details a powerful workflow to accurately separate and identify MOSH/MOAH fractions from common interferents, ensuring precise results even in complex samples like spices. Download now to learn how this advanced technology can elevate your food safety testing. |
Brand Distinguishing Analytes in Perfume
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GCxGC-HRT Aroma Analysis of Perfume Samples
Targeted and Non-Targeted analysis of name-brand and Imitation perfume samples |
Electronic Waste GC-HRT4D
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High-Resolution GCxGC for Improved Yeast Metabolite Characterization
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Cannabis Terpene Profiles Pegasus BT4D
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Quantitation of PAHs in Used Engine Oil using GCxGC and Time-of-Flight Mass Spectrometry
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Coffee Roast Level
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Introduction to Simply GCxGC
An Online Guide for Optimizing Comprehensive Two Dimensional GC Separations |
Analysis of Smoker and Non-Smoker Urine Using the Pegasus BT4D
Urine is a favored biological fluid for medical testing since it is easy to obtain in large quantities and provides a window into an individual's exposure, diet, and general health. Comprehensive GCxGC-TOFMS data can be used to visually differentiate smoker and non-smoker urine standard reference materials. |
Quantitation and Non-Target Detection of Pesticides in Spinach Extract with Pegasus BT4D
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Differentiation of Honey Aroma Profiles with Flux GCxGC-TOFMS
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Organochlorine Pesticides
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GCxGC-ECD of Polybrominated Diphenyl Ethers
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GCxGC-ECD of Polychlorinated Biphenyl Congeners
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Diesel Compound Classification
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Quantification of Dioxin-Like Polychlorinated Biphenyls
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GCxGC-ECD of Organochlorine Pesticides in Cucumber and Tomato
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Biodiesel
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California Lemon Oil
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