Abstract
Ultra performance liquid chromatography™ (UPLC) takes advantage of technological strides made in particle chemistry performance, system optimization, detector design, and data processing and control. Using sub‐2 µm particles and mobile phases at high linear velocities, and instrumentation that operates at higher pressures than those used in HPLC, dramatic increases in resolution, sensitivity, and speed of analysis can be obtained. This new category of analytical separation science retains the practicality and principles of HPLC while creating a step‐function improvement in chromatographic performance.
This review introduces the theory of UPLC, and summarizes some of the most recent work in the field.
Acknowledgments
The author would like to acknowledge the contributions of the ACQUITY program team at Waters, particularly Eric Grumbach, Michael Jones, Marianna Kele, Rob Plumb, and Jeff Mazzeo for their contributions to this manuscript.
ACQUITY UPLC, UPLC, and Ultra Performance LC are trademarks of Waters Corporation.