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For researchers pursuing the next scientific breakthrough, our all-in-one low-flow Vanquish Neo UHPLC System is ideal for LC-MS application, proteomics, precision, medicine, translational research, and more.
This webinar will showcase:
Key learning objectives:
Who should attend?
Lisa Strasser
Research Fellow
National Institute for Bioprocessing Research and Training (NIBRT)
Lisa Strasser received her PhD in 2018 from the University of Salzburg, Austria, where she was applying LC–MS based proteomics to elucidate allergic immune responses in human dendritic cells. She then moved to Dublin to join Systems Biology Ireland as a postdoctoral researcher studying colorectal cancer. In 2019, she started in the Characterization and Comparability Lab at NIBRT where she was initially focusing on the detection and quantitation of problematic host cell proteins in antibody products. Now, Lisa is working as a research fellow, focusing on developing novel analytical approaches for the characterization of adeno-associated viruses (AAVs) for the purpose of gene therapy.
Alexander Boychenko
Product Marketing Manager
Thermo Fisher Scientific
Alexander Boychenko is a Product Marketing Manager in the Chromatography and Mass Spectrometry group at Thermo Fisher Scientific, Inc., focused on bringing innovative applications and life science technologies to market. He holds a Ph.D. in Analytical Chemistry, and before joining the company worked as a post-doctoral researcher at the University of Groningen, The Netherlands, where he developed LC–MS techniques for discovery and validation of protein biomarkers in cervical cancer diagnostics. With a strong scientific background in chromatography, mass spectrometry, physical chemistry, chemometrics, and bioinformatics, Alexander is a subject matter expert in LC–MS analysis and theory, new separation technologies, multidimensional separations, LC–MS data analysis and data interpretation in proteomics, biomarker discovery, and validation. He utilizes his passion for translating scientists’ technology and application requirements into novel nano-, capillary-, and micro-flow LC–MS workflows and LC products seamlessly hyphenated with mass-spectrometry instruments.
Charged aerosol detection (CAD) measures analytes that cannot be seen by UV and may not be readily detected with other detection techniques. Dive into the technical capabilities of this unique HPLC detector, discover the extent of its use, and see how easily CAD works with any HPLC system, regardless of provider.
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