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Stavros Kromidas
Gradient HPLC for Practitioners
RP, LC-MS, Ion Analytics, Biochromatography, SFC, HILIC
Herausgegeben von Kromidas, Stavros
1. Auflage. 2019. 248 S. 150 SW-Abb. 244 mm
Verlag/Jahr: WILEY-VCH 2019
ISBN: 3-527-34408-X (352734408X)
Neue ISBN: 978-3-527-34408-6 (9783527344086)
Preis und Lieferzeit: Bitte klicken
Dieses handliche Fachbuch bietet HLPC-Experten ausführliche praktische Informationen, um Gradienten-Trennverfahren zuverlässig und effizient durchzuführen.
The only practice-oriented guide for the optimal use of gradient separations in HPLC
This practical guide for analytical scientists explains the use of gradients in liquid chromatography, which account for the majority of chromatographic separations. After a description of the fundamentals of gradient separations, the most common application scenarios are addressed, from LC-MS coupling to biochromatography to the separation of ionic substances. Throughout, the book provides detailed, practical information for practitioners, enabling them to use gradient separation methods reliably and efficiently.
Gradient HPLC for Practitioners: RP, LC-MS, Ion Analytics, Biochromatography, SFC, HILIC starts by examining aspects of gradient optimization?looking at special features of the gradient, some chromatographic definitions and formulas, and a set of easy-to-remember rules of thumb when setting up a gradient HPLC. It then provides readers with both linear and curvilinear models to study the prediction of gradients. Next, it examines the requirements, optimal use, hints, and pitfalls of the gradient itself?presenting instrumental influences in gradient elution, gradient elution technology, and ways to systematically characterize gradient instrumentation. Other topics covered include use of gradients in LC-MS; specifications of gradients in biochromatography; the gradient in the separation of ionic components; use of gradients in hydrophilic interaction liquid chromatography (HILIC); and gradient elution in supercritical fluid chromatography (SFC).
-Captures the experience and technological advances in gradient HPLC of the past decade
-Addresses everyday analytical challenges of novice and routine users
-Examines the detection limit, peak capacity, and resolution in gradient optimizations, as well as gradient ?myths? and examples for optimizing gradient runs
Gradient HPLC for Practitioners: RP, LC-MS, Ion Analytics, Biochromatography, SFC, HILIC will appeal to analytical chemists, chromatographers, environmental chemists, food chemists, forensic scientists, and pharmaceutical chemists.
Aspects of Gradient Optimization
Prediction of Gradients
The Gradient; Requirements, Optimal Use, Hints, and Pitfalls
Use of Gradients in LC-MS
Specifications of Gradients in Biochromatography
The Gradient in the Separation of Ionic Components
Use of Gradients in Hydrophilic Interaction Liquid Chromatography (HILIC)
Specifications of Gradients in Supercritical Fluid Chromatography (SFC)
Additional Tools for Method Development: Flow and Temperature Gradients