This webcast will cover how to reduce baseline noise and improve the signal-to-noise ratio of your HPLC or UHPLC system. Sean Kane, Director of Product Management at Mott Corporation, will detail why high performance mixing is critical for optimal detection limits. This is important to many scientists and analysts working with difficult solvent gradients and solvent additives in applications such as the analysis of monoclonal antibodies and recombinant proteins. Poor mixing of two or more mobile phase solvents results in a low signal-to-noise ratio and, thus, decreased sensitivity. Novel 3D printed structures have created complex geometric shapes that are now being used to dramatically reduce baseline ripple, demonstrating superior mixing while minimizing internal volume.

• How to reduce baseline noise in your HPLC/UHPLC
• How improved mixing performance improves R&D method development
• How 3D printing is affecting HPLC/UHPLC performance

• Analytical Scientists & Chemists in the Pharmaceutical and Biotech industries as well as those in academia, government laboratories, CROs, consulting, and instrument servicing