![]() The new Kinetex core-shell columns are available in two particle sizes – 2.6- and 1.7- micron – and in variety of column dimensions. Our product development team will continue to bring even more core-shell resources to the chromatography field." "We're pleased to add these two new phases to the three we initially offered. "We introduced our revolutionary Kinetex core-shell technology one year ago, and the market response and adoption rate have exceeded our expectations," comments Jeremy Bierman, brand manager for Phenomenex. The new Kinetex C8 phase meets the United States Pharmacopeia (USP) specifications for Classification Code L7, enabling laboratories using L7 columns to realize the benefits of Kinetex core-shell technology while staying compliant with USP-allowable adjustments. In comparison studies with other C18 columns, this new Kinetex phase has produced differences in peak elution order and improved separation of co-eluting compounds. These columns deliver enhanced separation and peak shape of basic compounds under neutral and acidic pH conditions. The new Kinetex XB-C18 provides a unique selectivity, incorporating two iso-butyl side chains at the base of the C18 ligand to reduce secondary interactions with residual silanols. Kinetex core-shell technology meets researchers' need to improve results and increase productivity without large capital expenditures. Kinetex XB-C18 and Kinetex C8 bring the advantages of ultra-high liquid chromatography performance (UHPLC) within standard HPLC operating pressures to a growing list of applications. Freeman: New York, 2015.Phenomenex Inc., a global leader in the research and manufacture of advanced technologies for the separation sciences, announces the addition of two new phases in its successful Kinetex core-shell HPLC/UHPLC column family. Quantitative Chemical Analysis, 9th edition. ![]() Shell Particles, Trials, Tribulations and Triumphs. Monolithic Columns in High-Performance Liquid Chromatography. ![]() The Rationale for the Optimum Efficiency of Columns Packed with New 1.9µm Fully Porous Titan-C18 Particles-A Detailed Investigation of the Intra-Particle Diffusivity. Speed-Resolution Properties of Columns Packed with New 4.6µm Kinetex-C18 Core–shell Particles. Core-Shell Particles Lead the Way to Renewing High-Performance Liquid Chromatography. New Silica Monolith Bonded Chiral (R)-γ Butyrolactone for Enantioselective Micro High-Performance Liquid Chromatography. Core–shell Nanoparticles: Synthesis and Applications in Catalysis and Electrocatalysis. Insights into the Modeling of Adsorption Isotherm Systems. Fast Liquid Chromatography: The Domination of Core?Shell and Very Fine Particles. Evaluation of a New Wide Pore Core–shell Material (AerisTM WIDEPORE) and Comparison with Other Existing Stationary Phases for the Analysis of Intact Proteins. Use of Novel Phenyl-Hexyl Core-Shell Particles in Nano-LC. Analysis of Polyphenols and Methylxantines in Tea Samples by Means of Nano-Liquid Chromatography Utilizing Capillary Columns Packed with Core–shell Particles. Core-Shell Particle Technology in Pharmaceutical Analysis. The Rebirth of Chromatography 75 Years Ago (accessed Nov 17, 2017).ġ1. Performance Characteristics of New Superficially Porous Particles. Characteristics of Superficially-Porous Silica Particles for Fast HPLC: Some Performance Comparisons with Sub-2-Μm Particles. Nanoscale Metal–Organic Frameworks for Biomedical Imaging and Drug Delivery. Applications of Silica-Based Monolithic HPLC Columns. Kinetics of Nonionic Surfactant Adsorption and Desorption at the Silica- Water Interface: One Component. Part I: Synthesis and Particle Structure Characterization. 1.1µm Superficially Porous Particles for Liquid Chromatography. Evaluation of Core–shell Particle Columns for Ion-Pair Reversed-Phase Liquid Chromatography Analysis of Oligonucleotides. Determination of the Porosities of Monolithic Columns by Inverse Size-Exclusion Chromatography. Synthesis of Uniform Porous Silica Microspheres with Hydrophilic Polymer as Stabilizing Agent.
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