Join David Oliva on the Concentrating on Chromatography podcast as he interviews Edward Faden, Vice President and co-owner of MAC-MOD Analytical, a leading provider of chromatography solutions since 1986. In this insightful discussion, Edward shares the history and expertise of MAC-MOD, based in Chadds Ford, Pennsylvania, and dives deep into the critical challenges of analyzing PFAS (per- and polyfluoroalkyl substances), often called "forever chemicals."Key topics include:- The pervasive nature of PFAS contamination in both environmental and laboratory settings.- Surprising sources of PFAS contamination identified in standard lab setups, from gas line tubing to everyday consumables.- The essential role of the PFAS Delay Column in ensuring accurate analysis by minimizing background interference.- Best practices for labs starting PFAS analysis to reduce contamination risks from day one.- Exciting developments in rapid sample pre-screening methods to prevent cross-contamination.Edward also discusses why PFAS are so widespread—used in products like non-stick cookware and waterproof clothing since the 1940s—and the ongoing struggle to manage their environmental persistence. Whether you're a chemist, environmental scientist, or simply curious about the impact of forever chemicals, this conversation offers valuable insights into cutting-edge analytical solutions.Don't miss out on learning about MAC-MOD's innovative approaches and future plans for PFAS analysis. Subscribe for more expert interviews and chromatography content!#Chromatography #PFAS #ForeverChemicals #EnvironmentalScience #LabAnalysis

Join us for an in-depth conversation with Dr. Eamonn Clark, postdoctoral researcher at the University of Hawaii,  Mānoa and the Water Resources Research Center, as he shares his journey in water research and laboratory innovation.In this episode:- Dr. Clark introduces his work on water treatment and disinfection byproducts, including research following the Red Hill fuel spill in Oahu.- A behind-the-scenes look at the development of a home-built nitrogen blowdown evaporator—why it was needed, how it was designed, and who can benefit from building their own lab equipment.- Discussion of workflows for PFAS analysis, the importance of accessible analytical tools, and the impact of DIY solutions in low-resource settings.- Insights into other homemade lab instruments, the role of 3D printing and PCB design, and the value of community science in water quality monitoring.- Reflections on the broader impact of water research, community engagement, and the importance of making science accessible to all.Key topics covered:- Water Resources Research Center and its mission- Analytical methods for PFAS and disinfection byproducts- Step-by-step overview of building a nitrogen evaporator- Who should consider DIY lab equipment- The future of homemade scientific tools and citizen science- Community outreach and the real-world impact of water researchWhether you’re a scientist, student, or simply curious about how research labs innovate on a budget, this episode offers practical advice and inspiration for building your own scientific equipment and making a difference in your community.Check out for links to Dr. Clark’s technical note and additional resources on DIY lab equipment and water research:- https://pubs.rsc.org/en/content/articlelanding/2025/ay/d4ay02118e/unauth- https://pubs.rsc.org/en/journals/articlecollectionlanding?sercode=ay&themeid=9bc2db53-354c-4a55-84eb-93fcae875044- https://blog.organomation.com/blog/inaugural-homemade-evaporator-contest-results-the-peak-of-ingenuity

Dr. Haleigh Boswell, Research Chemist at Chevron, joins the Concentrating on Chromatography podcast to discuss her fascinating career journey and cutting-edge analytical work in the energy industry. In this in-depth interview, Dr. Boswell shares:🔬 Technical Insights:- How two-dimensional gas chromatography (GCxGC) differs from traditional GC and why it's revolutionary for complex sample analysis- Applications of GCxGC in analyzing hydrocarbon and renewable matrices- Detector selection strategies (FID, SCD, NCD, TOF-MS) for different analytical challenges- Sample preparation considerations for complex energy industry matrices🎯 Industry Applications:- Real-world problem-solving in refinery operations and catalyst development- Non-targeted analysis for trace contaminants in renewable feedstocks- Process optimization and quality control in energy production- Safety considerations and instrument maintenance in industrial settings📈 Career Journey:- Transition from forensic science undergraduate studies to analytical chemistry- Moving from academia to industry: challenges and adaptations- The importance of networking in scientific careers- Advice for graduate students considering industry positions🏢 Behind the Scenes at Chevron:- Day-to-day responsibilities as a subject matter expert (SME)- Collaborative work across multiple R&D teams- Modernizing analytical instrumentation in a legacy company- Balancing innovation with business needs and safety requirementsThis episode provides valuable insights for analytical chemists, graduate students, and anyone interested in the practical applications of advanced chromatography techniques in industrial settings[#Chromatography #AnalyticalChemistry #EnergyIndustry #GCxGC #CareerAdvice #ChemistryPodcast