Achieve excellent performance for the analysis of semi-volatile organic compounds (SVOCs), including long-chain hydrocarbons, PCBs, phthalates, PAHs and flame retardants.
This study investigates the performance of Markes’ thermal desorption (TD) systems for the analysis of polycyclic aromatic hydrocarbons (PAHs) in air.
Learn about a new multi-mode preconcentration platform that can be interfaced to any existing GC-MS.
A method validation and field study for the determination of trace-level phthalate esters in air using TD–GC–MS
This study describes the performance of Markes’ thermal desorption (TD) systems for the GC–MS analysis of trace-level phthalates in air.
This technical note presents an example of scaling down EPA Method 8270 and using a GC Accelerator kit to reduce cycle time.
This study describes how Markes’ thermal desorption (TD) systems can be used for the GC–MS analysis of trace-level polychlorinated biphenyls (PCBs) in air
This study investigates the ability of Markes’ thermal desorption (TD) systems to monitor semi-volatile organic compounds (SVOCs), using a wide range of n-alkanes (n-C16 to n-C44) as...
Application note describing the analysis of three fragranced consumer products – fabric conditioner, washing detergent and washing powder – using three sampling approaches in conjunction with analysis...
Application demonstrating the fully automated sampling and detection of BHT in two foodstuffs using automated headspace–trap GC–MS.
Application note describing how a canister autosampler and TD–GC–MS together allow the analysis of a range of trace-level air toxics from air at 100% relative humidity (RH),...
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