Application NoteThe Identification of Hydrocarbons in Highly Complex Petrochemical Samples by GC×GC–TOF MS
Application NoteThe Advantages of a TD–GC–TOF MS Approach for Detecting Trace-Level Odorants in Polluted Air
Application NoteFuture-proofing the Biopharmaceutical QC Laboratory: Using the ACQUITY UPLC H-Class Bio System to Run SEC-HPLC and SEC-UPLC
Application NoteCorrelation of Emission Rates Determined using the Micro-Chamber/Thermal Extractor with those for Conventional Emission-Chamber Tests
Application NoteConcentrating Phenolic Compounds Using the XcelVap® Evaporation/Concentration System
Application NoteIntroducing the Micro-Chamber/Thermal Extractor for Rapid Emissions Screening of Products and Materials
Application NoteEvaluation of a ‘Soil Gas’ Sorbent Tube for Improving the Measurement of Volatile and Semi-Volatile Fuel Vapors in Contaminated Land
Application NoteAnalysis of Canister Air Using Cryogen-Free Thermal Desorption in Compliance with US EPA Method TO-15
Application NoteUsing Markes’ Emissions Screening Technology to Simplify Compliance with Construction Product Regulations
Application NoteUsing the TT24-7 with Twin Electrically-Cooled Focusing Traps for Continuous Monitoring of Trace Level Toxic Chemicals in Air
Application NoteComprehensive Analysis of Aroma Compounds Released from Incense Sticks using TD–GC/MS
Application NoteMonitoring ‘Air Toxics’ in Ambient Air using Sorbent Tubes by Automated, Cryogen-Free Thermal Desorption in Accordance with US EPA Method TO-17
Application NoteThe Analysis of Landfill Gas Compounds using Thermal Desorption GC/MS and a Retention Time Locked Database
Application NoteTDTS 53 Quantitative Recovery and Method Validation of High-Boiling SVOCs using TD–GC/MS
Application NoteUsing the FLEC to Determine Emissions of Volatile Organic Compounds from Materials and Products
Application NoteInvestigation of the Performance of Sorptive Extraction Cartridges for Air Monitoring
