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Dramatically Improve Existing 5 µm and 3 µm Fully Porous Methods
Jeff Layne
With virtually no development required chromatographers running traditional methods can instantly improve resolution, sensitivity, and productivity by simply replacing 5 µm and 3 µm fully porous columns with a Kinetex 5 µm core-shell column.
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HPCL
Rapid LC–MS-MS Pain Panel Analysis Using Kinetex Columns
Sky Countryman, Shahana Huq, Seyed Sadjadi, and Erica Pike
In this application note, 41 pain management drugs from several drug classifications were isolated from urine samples and analyzed by LC–MS-MS in under 5 min using a Kinetex Core-Shell Technology HPLC/UHPLC column.
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Automated, High-Throughput Analysis of Benzodiazepines from Urine and Plasma
Shahana Huq, Seyed Sadjadi, Sky Countryman, and Erica Pike
In this application note, eight benzodiazepines were extracted from both urine and plasma using an automated Strata-X SPE procedure and analyzed via LC–MS-MS Kinetex core-shell method.
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HPCL
Accurate and Reproducible Quantitation of Vitamin C in Human Plasma
Shuguang Li, Sky Countryman, and Erica Pike
A fast and efficient HPLC method for sensitive, accurate, and reproducible quantitation of vitamin C in human plasma by applying Impact Protein Precipitation Plate technology with Kinetex Core-Shell HPLC columns.
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HPCL
Chlorogenic Acids from Green Coffee by HPLC
Zeshan Aqeel, Steve Baugh, David Truong, J. Preston, and Serena Lazzaro
Fast analysis of the green coffee extract raw material using a new Kinetex Core-Shell Technology HPLC method for both brewed coffee and a commercially available formulation containing green coffee extract.
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LC–MS Analysis of Fluoroquinolone Antibiotics by Kinetex Core-Shell Columns
Michael McGinley, Matt Trass, and Jeff Layne
Data from this technical note demonstrates the utility of the Kinetex 2.6 µm XB-C18 column for the separation of numerous, typically difficult, fluoroquinolones by LC–MS with non-ion pairing buffers.
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HPCL
Improved Resolution of Triazine Herbicides with Kinetex Core-Shell Columns
Kory Kelly and Kali Tudela
Increased throughput without sacrificing resolution using Kinetex Core-Shell Technology for LC–MS-MS analysis of traizine herbicides present in EPA Method 536.
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HPCL
Enhancing Sensitivities and Peak Capacities for UHPLC–MS Fast Gradient Analyses
James Rudge, David Neville, Richard Houghton, Chris Message, and Jeremy Bierman
The ultra-high efficiency and low backpressures provided by Kinetex core-shell 2.6 µm columns provide users the opportunity to go beyond what is traditionally accepted for UHPLC runs.
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HPCL

Ultra-High Efficiency Kinetex Core-Shell Technology for Preparative LC
Jeff Layne, J. Preston, Marc Jacob, and J.T. Presley III
The first and only core-shell media available for lab-scale preparative purification. Chromatographers can now scale their ultra-high efficiency Kinetex core-shell analytical columns directly to Kinetex 5 µm Axia-packed preparative columns.
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