LCGC North America Application Note Alert Having trouble viewing this email? Click here Transfer of an EP Method for Mebendazole Discussion of the transfer of analytical HPLC methods from a Waters Acquity UPLC system to the Vanquish platform and highlights the impact of column thermostatting. Identity Confirmation and Accurate Quantitation of a Genotoxic Impurity This application note demonstrates how sensitive UV detection provides quantitation of a genotoxic impurity at low ng/mL level. Simultaneous Determination of Water- and Fat-Soluble Vitamins in Tablets and Energy Drinks This application note describes workflow for the simultaneous quantitative analysis of fat-soluble and water-soluble vitamins in drinks and food supplement tablets. Simultaneous Liquid Chromatographic Analysis of Acetaminophen Impurities This application note demonstrates the capabilities for Dual LC to run independent HPLC and UHPLC methods simultaneously using one instrument. Protein Aggregate Analysis of Monoclonal Antibodies The Thermo Scientific Vanquish Duo system for Dual LC employs two separate flow paths for simultaneous analysis of complex samples. Simultaneous Analysis of Monoclonal Antibodies The Thermo Scientific Vanquish Duo system for Dual LC can run two methods simultaneously on one instrument, regardless if identical chromatographic conditions are used. Doubling Chromatographic Throughput Using Dual LC The Thermo Scientific Vanquish Duo system for Dual LC enables two sample runs concurrently, so samples to run in half the time, improving pharmaceutical drug analysis. Automated Method Development in HPLC for the Quantitative Determination of Catechins in Tea This note discusses the use of a software-based workflow for automated method development in HPLC as a straightforward approach with a significant reduction in process time. Tandem UHPLC Operation for High-Throughput LC–MS Peptide Mapping Analyses This note addresses productivity and throughput improvement of existing LC–MS methods. Tandem NanoLC-MS: Maximum MS Utilization for Deep-Dive Proteomic Analysis This note addresses the optimum solution for the true productivity in all nanoLC-MS proteomics workflows.