Next-Level PFAS Screening and Identification Using Trapped Ion Mobility Spectrometry (TIMS)

Enjoy this previously recorded webinar with LCGC Magazine and Bruker Applied Mass Spectrometry featuring our speaker, Samuel Putnam.

Webinar Highlights:

Detection and identification of thousands of PFAS compounds at a very low concentrations is a serious analytical challenge that is often aggravated by the complexity of environmental matrixes in which these pollutants are found. Abundance of isomeric and previously unreported PFAS structures can make this task even more difficult. The combination of high-resolution mass spectrometry with high-resolution ion mobility spectrometry allows reliable separation of isomeric PFAS compounds, while highly optimized methods of ionization in combination with collisional cross-section ion filtering provide high levels of sensitivity and accuracy of analysis even in a complex matrix. Hardware performance combined with advanced data processing software enables identification of unknown compounds and streamlines a difficult analytical challenge into a manageable workflow.

Why Watch This Webinar?

• Master Complex Matrices: Gain insights into navigating the intricate environmental matrices that complicate PFAS detection.
• Cutting-Edge Techniques: Discover the latest advancements in high-resolution mass spectrometry and ion mobility spectrometry for reliable separation of isomeric PFAS compounds.
• Unmatched Sensitivity and Accuracy: Learn about highly optimized ionization methods and collisional cross-section ion filtering that ensure exceptional sensitivity and accuracy, even in complex samples.
• Streamlined Workflows: See how advanced hardware and data processing software can transform challenging analytical tasks into manageable and efficient processes.

Don’t miss this opportunity to enhance your analytical skills and stay ahead in the field of environmental analysis. Register now to watch the on-demand webinar and take your PFAS detection capabilities to the next level!

Next-Level PFAS Screening and Identification Using Trapped Ion Mobility Spectrometry (TIMS)