HPLC and UHPLC reversed-phase method development - Selecting a reproducible starting point
Dr. Phil Koerner, from Phenomenex, will present tips to help you leverage HPLC and UHPLC column particle morphologies to improve or optimize a specific aspect of your separations. He will also discuss separation tradeoffs such as maximizing the relative speed of analysis of your method, versus the need for increased selectivity or compound retention. Ways for improving your method's reproducibility through robust method development and techniques to ensure the reproducibility through the lifecycle of the method will also be covered.
Key learning objectives:
- Method development optimization for reversed-phase chromatography
- Impact on chromatographic reproducibility
- Selectivity and particle morphologies considerations
Who should attend?
- HPLC/UHPLC focused method developers
- Analytical development groups
Presenter: Dr. Phil Koerner (Market Development Manager, Pharmaceuticals, Phenomenex)
Dr. Phil Koerner has over 30 years of experience in LC, GC, and sample preparation techniques, and is an expert in practical HPLC and UHPLC method development. Phil joined Phenomenex in 1999 as Senior Technical Manager after 11 years with DuPont. Phil received his B.S. in Chemistry at the University of California, Irvine, earned his M.S. and Ph.D. in Chemistry at the University of Illinois, and was awarded an MBA at the University of Delaware. Phil has traveled extensively around the world presenting technical seminars, hands-on training, and providing technical assistance covering various topics in HPLC, GC, and SPE, in support of Phenomenex customers globally. In his current role, Phil is the Pharmaceutical Market Development Manager at Phenomenex.
Presenter: Moderator: Cameron Smith (Editorial Team, SelectScience)
Cameron studied Biomedical Science at the University of the West of England, UK, specializing in medical microbiology and oncology during his final year. As a member of the Editorial team, he now plays an integral role in shaping the content on SelectScience.