Application Notes

Combining the APC System with WinGPC UniChrom™ software allows researchers to increase the peak capacity of their research.

This application note demonstrates Evolved Gas Analysis (EGA) and Multi-step Pyrolysis (MSP) with GC/MS on two different tea bag samples.

Collaborative efforts at Virginia Tech University drive better materials through polymer innovation and additive manufacturing.

YMC’s latest HIC column is used to analyse the DAR of Brentuximab Vedotin allowing higher flow rates and shorter run times thanks to the pressure resistant particle.

YMC’s HIC columns, BioPro HIC HT, and BioPro HIC BF address separation requirements of different compounds. The separation behaviour of two mAbs is demonstrated.

This application note shows how a mixture of seven in-house mAbs, as well as the molecular variants of two mAbs, were characterised via HIC-MS using YMC’s BioPro HIC BF column.

In this application note the DAR of the SigmaMAb ADC-mimic was determined using YMC’s BioPro HIC BF column and a nanospray ionisation mass spectrometer.

Monoclonal antibodies and their oxidised species are separated using YMC’s more hydrophobic BioPro HIC BF column, dedicated for low hydrophobicity proteins and oxidised mAb variants.

Four therapeutic mAbs of different species, isotypes, and pI together with their variants were analysed using pH and salt gradient mode using YMC’s non-porous BioPro IEX SF.

YMC-Triart Bio C4 is used in YMC capillary column format to analyse and identify intact commercial mAbs by micro LC–MS/MS at an elevated temperature of 75°C.

In this application note high-resolution SCX was coupled directly to an ultrasensitive online native MS using YMC’s BioPro IEX SF to analyse mAb charge variants.

Preventing aerosol contamination during pipetting helps you achieve reliable results. Here we address the main contamination mechanisms that need to be avoided.

Reveal more veterinary drugs in Food. Use the QSight LC–MS/MS to get a fast, selective, and sensitive method for the determination of sulfonamide antibiotics in milk.

HALO® PFAS delay and HALO® PFAS analytical columns deliver rugged, reproducible performance for the most challenging environmental sample matrices.

To improve the chromatography of PFAS and other environmentally concerning chemicals, application-assured HPLC columns have been developed to deliver high efficiency and robust analysis.

This application demonstrates the capability of the HALO® PFAS columns for separating branched and linear isomers of PFAS species PFHxS, found in well water.

High throughput analysis of 33 PFAS compounds found across EPA methods 533, 537.1, and 8327 in under 5 minutes.

High resolution separation of 24 PFAS compounds using the HALO® PFAS Delay column coupled with the HALO® PFAS analytical column.

Rapid and high-resolution analysis of PFAS compounds across EPA methods 537.1, 533, and 8327, using the new HALO® PFAS delay and analytical columns.

The analytical performance of the CDS 7000 Series Purge and Trap concentrator is demonstrated for the EPA Method 8260C by GC–MS analysis.

This article demonstrates the sensitivity of an automated thermal desorber coupled to a GC–MS for TO-17 VOCs analysis targeting from propene to naphthalene.

This application note demonstrated the quantitative analysis of 26 fragrance compounds by a PAL system equipped with a dynamic headspace module.

This application note demonstrates a quantitative analysis of δ9-Tetrahydrocannabinol (THC) from a commercial cannabidiol oil sample.