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High-performance liquid chromatography (HPLC) is now a widely applied and established analytical technique used throughout industry and research. As a tool which the analyst counts as a standard method, it is appropriate that with the increasing management of laboratory methods via microcomputers, the linking of HPLC to such systems should be considered.
Separation Methods in Drug Synthesis and Purification
Learn to maximize the performance of your HPLC or UHPLC system with this resource from leading experts in the field Optimization in HPLC: Concepts and Strategies delivers tried-and-tested strategies for optimizing the performance of HPLC and UHPLC systems for a wide variety of analytical tasks. The book explains how to optimize the different HPLC operation modes for a range of analyses, including small molecules, chiral substances, and biomolecules. It also shows readers when and how computational tools may be used to optimize performance. The practice-oriented text describes common challenges faced by users and developers of HPLC and UHPLC systems, as well as how those challenges can be overcome. Written for first-time and experienced users of HPLC technology and keeping pace with recent developments in HPLC instrumentation and operation modes, this comprehensive guide leaves few questions unanswered. Readers will also benefit from the inclusion of: A thorough introduction to optimization strategies for different modes and uses of HPLC, including working under regulatory constraints An exploration of computer aided HPLC optimization, including ChromSwordAuto and Fusion QbD A treatment of current challenges for HPLC users in industry as well as large and small analytical service providers Discussions of current challenges for HPLC equipment suppliers Tailor-made for analytical chemists, chromatographers, pharmacologists, toxicologists, and lab technicians, Optimization in HPLC: Concepts and Strategies will also earn a place on the shelves of analytical laboratories in academia and industry who seek a one-stop reference for optimizing the performance of HPLC systems.
Publisher Description
This revision brings the reader completely up to date on the evolving methods associated with increasingly more complex sample types analyzed using high-performance liquid chromatography, or HPLC. The book also incorporates updated discussions of many of the fundamental components of HPLC systems and practical issues associated with the use of this analytical method. This edition includes new or expanded treatments of sample preparation, computer assisted method development, as well as biochemical samples, and chiral separations.
Separation of chemical species is a gate to final success of synthesis and preparation of compounds in pure and defined state. Variability of natural and artificial mixtures to be treated is enormous. Task of chemistry is to separate components of homogeneous mixtures (the gaseous and liquid solutions). The book concentrates on understanding the basic philosophies of both equilibrium and nonequilibrium chemical thermodynamics and engineering performance that lay in principle of separation technique such as distillation, crystallization, centrifugation, sorption, membrane separations, chromatography, and liquid-liquid extraction. Specific phenomena connected with photochemical separation, isotope composition, and radioactivity are discussed as well. The book is written for advanced students of chemistry having the knowledge of physical chemistry. Calculation examples are based on the international system of units. Unique list of over 1,300 full references covers scientific literature of the eighteenth to the twenty-first centuries.
Delineating its usage in separation, purification and detection processes across a variety of disciplines, from industry to applied research, this work discusses the principles, techniques and instrumentation involving HPLC within a detailed framework. Over 100 tables present previously scattered experimental data.
Handbook of Chemometrics and Qualimetrics
Trends in Analytical Chemistry, Volume 3 focuses on developments in analytical chemistry, including the adoption of automation in laboratory processes, chromatography, and flow analysis. The selection first underscores the effect of automation on the operations of analytical laboratories and techniques for the automated optimization of HPLC separations. Topics include initial requirements, window diagrams, and chemometric approaches. The text then ponders on generation of statistical tables by microcomputer; enzyme electrodes for continuous in-vivo monitoring; and enantiomeric analysis of the common protein amino acids by liquid chromatography. The publication takes a look at sample preparation for the analysis of heavy metals in foods and application of ion-selective electrodes in flow analysis, including dry ashing, acid extraction, and ion-selective electrodes in flowing systems. The text then examines trends in laboratory information management systems; zone electrophoresis in open-tubular capillaries; and using computers to interpret IR spectra of complex molecules. The selection is a valuable source of data for readers interested in the developments in analytical chemistry.