Method Development Webinar Series
Join our expert-led webinar series focused on modern, efficient approaches to chromatographic method development. Designed for industry scientists, this series will cover practical applications of retention modeling, software-assisted workflows, and in-silico tools to support faster development, reduced experimental effort, and more robust, QbD-aligned methods.
Each session delivers actionable insights you can apply directly to real-world analytical challenges, whether you’re developing new methods or optimizing existing ones.
Retention Modelling: Principles, Advantages, and Potential Pitfalls to Avoid
Jen Field, Technical Laboratory Supervisor at Shimadzu, explores the principles, benefits, and challenges of retention modelling in chromatography. She shares practical tips to improve model accuracy using software tools like Method Selection Suite and how it can streamline method development by optimizing separations, reducing experiments, and saving resources.
Smarter Achiral HPLC Method Development: Leveraging In-Silico Tools for Efficiency
Discover how to accelerate achiral HPLC method development using in-silico tools and digital optimization strategies. Shreya Bondili (Pharmaron) shares how to leverage predictive modeling, automation, and smarter data use to improve efficiency, reduce experimentation, and drive faster, more reliable analytical results.
Software-assisted Process for Efficient and Expedited Development of Chromatographic Methods (SPEED-CHROM)
Jens Richards of Corteva Agriscience explains how the SPEED-CHROM initiative helped boost confidence and productivity for a young, less experienced team. By combining predictive modeling, optimized instrumentation, and better communication, the team was able to develop methods faster and with greater accuracy.
In Silico Modeling for QbD Method Development and Optimization
Azzedine Dabo from GSK shares how in silico modeling supports QbD-driven method development and optimization. In this presentation, he walks through a real-world case study showing how simulation, iterative optimization, and automated method screening with AutoChrom led to a robust, efficient method.