GCxGC Anwendungshinweise

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Titel und Beschreibung
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

GCxGC-HRT Aroma Analysis of Perfume Samples

Targeted and Non-Targeted analysis of name-brand and Imitation perfume samples

Electronic Waste GC-HRT4D

High-Resolution GCxGC for Improved Yeast Metabolite Characterization

Cannabis Terpene Profiles Pegasus BT4D

Quantitation of PAHs in Used Engine Oil using GCxGC and Time-of-Flight Mass Spectrometry

Coffee Roast Level

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

Differentiation of Honey Aroma Profiles with Flux GCxGC-TOFMS

Organochlorine Pesticides

GCxGC-ECD of Polybrominated Diphenyl Ethers

GCxGC-ECD of Polychlorinated Biphenyl Congeners

Diesel Compound Classification

Quantification of Dioxin-Like Polychlorinated Biphenyls

GCxGC-ECD of Organochlorine Pesticides in Cucumber and Tomato

Biodiesel

California Lemon Oil