Phenomenex Kinetex EVO Core-Shell HPLC Columns Deliver Improved Results and Stability from pH 1 to 12
16 Oct 2014Phenomenex Inc., a global leader in the research and manufacture of advanced technologies for the separation sciences, introduces Kinetex EVO C18 – the latest advancement in ultra-high performance HPLC columns. The Kinetex EVO C18 column incorporates a patented organo-silica grafting process that utilizes uniform stabilizing ethane cross-linking to create a unique selectivity and ultimately, pH stability from 1-12. Kinetex EVO C18 has the performance advantages of Core-Shell Technology even at extreme low and high pH. This new advancement adds alkaline pH ruggedness and a highly versatile selectivity to the Kinetex core-shell family of HPLC, UHPLC and preparative LC products.
The EVO C18 columns are an extension of the Phenomenex Kinetex core-shell line, which delivers improved results, increased productivity, easy transferability and significant cost savings compared to traditional HPLC/UHPLC media. The wide pH 1 to 12 stability and improved peak shape for bases make the Kinetex 5 µm EVO C18 especially ideal for analytical and preparative HPLC methods at a variety of challenging pH levels such as those in open access labs.
With the introduction of the 5 µm Kinetex EVO C18 particle, HPLC and preparative HPLC users can utilize 3 µm or better efficiencies and low backpressures to easily replace traditional hybrid materials and run at higher linear flow rates to compress long run times. Additional Kinetex EVO C18 core-shell particles, including those for UHPLC, are scheduled to be introduced very soon.
“’It's very exciting to witness first-hand the incredibly positive customer reaction now that the guarantee of core-shell performance at virtually any pH range is finally here,” explains Simon Lomas, Brand Manager for Phenomenex. “Now scientists can utilize Kinetex 5 µm EVO C18 columns to easily improve HPLC or PREP LC results without the pH restrictions of other core-shell products or the performance limitations of traditional hybrid and polymer columns.”