Bridging the gap between novel therapeutics and analytical research
Webinars on-demand
Make major strides in your analytical methods
What do you get when you combine the brainpower of the (bio)pharmaceutical industry with academic research? You get pure innovation! In Bridging the gap between novel therapeutics and analytical research, we dive into expert insights and research being done using LC-MS and CE solutions. Learn about analytical techniques that will drive informed decision-making and accelerate your research and development.
Advanced LC-MS techniques in bioanalysis
LC-MS: A powerful analytical tool for drug discovery and ADME studies
Featuring Rana Rais, PhD, Director, Drug Metabolism and Pharmacokinetics, Johns Hopkins Drug Discovery
Explore the role of LC-MS/MS in drug discovery and how it is a versatile and sensitive analytical method essential for drug discovery, particularly in ADME (absorption, distribution, metabolism, and excretion) studies.
Nanoplastic and circular RNA analysis with capillary electrophoresis
From noble metals to DNA: Characterization of nanoscale materials using capillary electrophoresis
Featuring Dr. Kathryn Riley, Associate Professor, Swarthmore College
Discover the advancements in capillary electrophoresis for analyzing engineered and incidental nanomaterials, including noble metal nanoparticles, DNA origami and nanoplastics.
High-resolution RNA analysis: Techniques for linear and circular RNA
Featuring Arianna Sauceda, mRNA Explorer Scientist, HelixNano
Understand the capabilities of capillary electrophoresis in high-resolution separation and quantitation of linear mRNA and circular RNA, crucial for both basic research and large-scale applications.
Analytical techniques in lipidomics and metabolomics
Utilizing large lipid standard sets to improve quantification in DMS-shotgun lipidomics studies
Featuring Kevin Williams, PhD, Scientific Director, UCLA Lipidomics Lab, David Geffen School of Medicine at UCLA
Learn about studies that demonstrate the value of quantitation with a large lipid standard set and the opportunity to improve quantitative lipidomics by expanding current standard mixes.