Unique ACE® 1.7 µm Selectivities for Ultra-Fast UHPLC Separations
Dec 05 2018 Read 693 Times
There has been a great deal of emphasis in recent years on the use of sub-2 µm particle sizes for increasing chromatographic efficiency and decreasing method runtimes, but phase selectivity remains the most powerful factor in altering resolution. Advanced Chromatography Technologies' novel ACE phases are available in 1.7 µm particles, so you can leverage both their unique chemistries and high efficiencies to achieve your ultra-fast separation.
- Unique selectivity, high efficiency 1.7 µm ACE UHPLC columns
- ACE C18, C18-AR and C18-PFP phases
- ACE SuperC18, C18-Amide and CN-ES phases
- 3 alternative selectivity HILIC chemistries available
- 1.7 µm Method Development Kits – 3 columns for the price of 1!
ACE Advanced, Extended and HILIC Method Development Kits are available in 1.7 µm particles! ACE 1.7 µm Method Development Kits group together complementary selectivities to aid in the separation of closely related analytes in your mixtures. Screening each phase under the same mobile phase conditions can help you achieve your desired separation faster and increase your lab’s productivity. Each kit contacting three 1.7 µm columns is available for the same price as a single column!
Do you like or dislike what you have read? Why not post a comment to tell others / the manufacturer and our Editor what you think. To leave comments please complete the form below. Providing the content is approved, your comment will be on screen in less than 24 hours. Leaving comments on product information and articles can assist with future editorial and article content. Post questions, thoughts or simply whether you like the content.
In this edition Articles - Detection of molecular markers in aquatic sediments by ion profi les obtained by GC/MS system - Fighting the Resistance: How Rapid Microbial ID with MALDI MS and A...
View all digital editions
Feb 20 2019 Mumbai, India
Feb 21 2019 New Delhi, India
Feb 25 2019 Moscow, Russia
Feb 26 2019 Guangzhou, China
Feb 27 2019 Berlin, Germany