In this webcast, we will present how HPLC retention modeling (for reversed-phase, normal-phase, HIC, HILIC, and ion-exchange separations) saves time and resources across all stages of the life cycle of an analytical method. Based on examples from industry, we will demonstrate how method run time can easily be reduced 10-fold with improved selectivity when redesigning an old method, while the development time needed is reduced by factor of 12 at the same time. We will also show how an existing USP method that frequently fails in routine runs can be understood and improved in accordance with the allowed changes (USP 621) using DryLab.
Key Learning Objectives
How to vastly reduce method run time and speed up method development time across HPLC types (reversed-phase, normal-phase, HIC, HILIC, and ion-exchange)
How to optimize performance of an existing method in three simple steps
How to use chromatographic parameters (to maximize resolution)
How to evaluate method robustness
How to perform an early-stage (stage 1) robustness evaluation for robust method design
How to use chromatographic modeling to safeguard method transfers from later out-of-specification (OoS) results
Who Should Attend
The webcast is suited for scientifically oriented method developers from the following sub-fields:
Qualitative and quantitative analyses using reversed-phase, normal-phase, HIC, HILIC, and ion-exchange across industries
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