Increase Lab Productivity with Column Technologies for Speed and Versatility
10 Apr 2008Don’t miss the session on simplifying method development with the new Gemini®-NX column at HPLC 2008, Monday, May 12 at 12:45. Visit booth #614 to see new products for increasing speed and optimizing your separations. Oral presentations and posters will introduce Phenomenex research into Fast LC, HILIC mode separations, and automated SPE of biological samples.
On Monday, Phenomenex will host a session on Unique Particle Technology Enabling Robust Method Development for Ionizable Compounds (M, 5/12, 12:45 PM). Through a second-generation organo-silica grafting process, Gemini-NX provides a rugged column platform. Learn how Gemini-NX simplifies column selection and enables robust method development for ionizable compounds.
One of the most versatile reversed phase columns from Phenomenex, Gemini-NX excels in both MS-volatile buffers and non-volatile buffers, offers high sample loading capacity, and is one of the most durable, pH tolerant columns on the market.
Also new from Phenomenex is Onyx® 2.0 mm ID Monolith. Now you can achieve sample throughput at monolithic speeds! The new 50 mm x 2.0 mm ID format offers solutions for faster sample throughput at low pressures and high efficiencies.
Oral Presentation
Influence of Temperature in High Speed Separations with Decreasing Particle Sizes Th, 5/15, 5:20 PM, Harborside C
Poster Presentations
- Fundamental Importance of Buffer Cation and Anion on the Robustness and Selectivity of HILIC Separations of Basic Compounds
- Novel RP Column Chemistry with Superior Performance in MS Compatible Conditions and Exceptional Stability in Wide Range of pH
- Critical Factors to Consider When Optimizing Productivity for Preparative Separations with Laboratory Scale Preparative Columns
- Extending Preparative Column Lifetime in Open-access Laboratories
- HPLC Method Development for Mixtures of Acidic, Basic and Neutral Drugs: HILIC or RP-HPLC – The Choice for Isocratic Elution?
- High-throughput Biological Sample Preparation: A Novel In-tip Automated Protein Precipitation Protocol and Comparison With Solid-phase Extraction for Matrix Effects