Practical HPLC Methodology and Applications
Agotado
Precio original
$239.95
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Precio original
$239.95
Precio original
$239.95
$239.95
-
$239.95
Precio actual
$239.95
Description
Of related interest. Trace and Ultratrace Analysis by HPLC Satinder Ahuja Written by a leading scientist in the field, this monograph provides the first definitive and technically up-to-date treatment of the theory, equipment, and applications of chemistry's most powerful reliable analytical technique. Coverage includes an encyclopedic compendium of common substances that require trace and ultratrace analysis, and features clear discussion of such important topics as considerations for HPLC equipment, sensitive detectors, sample preparation, method development, selectivity and computer-based optimizations, optimizing detectability, and much more. 1991 (0 471-51419-5) 432 pp. High Performance Liquid Chromatography in Biotechnology Edited by William S. Hancock Analytical chemists, biochemists, and chemical engineers will find this up-to-date guide to HPLC's recent developments essential for enhancing on-the-job technical expertise. Extensive coverage includes the broad applications of HPLC, ranging from major chromatographic techniques (including reversed phase, ion exchange, affinity and hydrophobic interaction chromatography) to specific separations such as those in monoclonal antibody and nucleic acid purification. Techniques for quality control programs and advanced technology are also discussed. 1990 (0 471-82584-0) 564 pp. Unified Separation Science J. Calvin Giddings This advanced text/monograph brings together for the first time the variety of techniques used for chemical separations by outlining their common underlying mechanisms. The mass transport phenomena underlying all separation processes are developed in a simple physical-mathematical form, facilitating analysis of alternative separation techniques and the factors integral to separation power. The first six chapters provide background material applicable to a wide range of separation methods, while the final five chapters illustrate specific techniques and methods. 1991 (0 471-52089-6) 320 pp. Liquid Chromatography as a Research Tool.
The Chromatogram and What Contributes to It.
Approaching the Problem.
Developing the Separation.
Considerations for Proper Operation of a LiquidChromatograph.
Gradient Elution Chromatography.
Experiment 1: Demonstrating the Fundamentals.
Experiment 2: Normal-Phase Chromatography.
Experiment 3: Effect of Column Length and Recycle.
Experiment 4: Gel Permeation Chromatography Using Dual Detectors(UV and RI).
Experiment 5: Developing a Reverse Phase ChromatographicSeparation.
Experiment 6: Quantitation.
Experiment 7: Monitoring Kinetics.
Experiment 8: Preparative Liquid Chromatography.
Experiment 9: Analysis of Essential Oils (Steam Distillates).
Experiment 10: Gradient Elution.
Index. About the author BRIAN A. BIDLINGMEYER is a leading scientist in the field of liquid chromatography in which he has been active for over 20 years. He has published over 55 technical papers in the field and has made significant contributions in numerous areas. His wide ranging research into practical applications has included understanding the mechanism of ion pairing and surfactant containing mobile phases, fundamental studies into the role of bonding and pore size on protein separations, developing new methods and columns for the analysis of fatty acids and triglycerides, developing novel polymer and small molecule GPC separations, improving analysis of amino acids using derivatization techniques, identifying the use of bare silica gel for the reverse phase separation of amine containing molecules, simplifying direct analysis of drugs in serum, developing approaches for the optimization of chromatographic separations, and developing guidelines for preparative separations. As a result of his pioneering work, Dr. Bidlingmeyer has received numerous awards. He is a recipient of the Heinrich Emmanual Merck Award for contributions to analytical chemistry, the International Ion Chromatography Forum's Award for outstanding contributions to that field, an IR 100 Award for the development of a new method for amino acid analysis ("Pico-Tag" Method) and the Millipore Innovation Award for outstanding scientific contributions to the company. He also has won a Massachusetts Center for Excellence Corporation (MCEC) Grant for the development of a novel sample preparation device for sea water and received an award for outstanding service from the Western Carolinas Chromatography Discussion Group. Dr. Bidlingmeyer received his PhD in analytical chemistry from Purdue University studying under Dr. L. B. Rogers. He has served on numerous scientific councils, organization committees, and advisory boards. He is presently an Associate Editor and Contributing Editor for the Journal of Chromatographic Science, on the editorial advisory board of Frescnius' Zietschift for Analytical Chemistry (Germany), LC/GC and Preparative Chromatography. Since its commercial introduction nearly 25 years ago, high performance liquid chromatography (HPLC) has progressed from a complicated "art" to a straightforward separation science and has become one of the fastest growing techniques in the modern laboratory. But while HPLC instruments have become indispensable in science and industry and HPLC opportunities nearly unlimited, many of todays chemists, scientists, and technicians have little or no personal experience with the HPLC process. Written primarily for those new to the subject, Practical HPLC Methodology and Applications provides a broad foundation in the field of chromatography as well as all the information necessary to develop useful separations. Following an applications-oriented approach, the book presents a thorough account of how separations are developed along with where, how, and which HPLC technique(s) are most appropriate for accomplishing a particular separation. Serving as a bridge between strictly introductory texts and more advanced treatises, this book presents a great deal of important information from the formative years of HPLCmuch of which is drawn from "dated" references but is nonetheless integral to understanding the purposes and procedures of chromatography. Beginning with a general overview of modern liquid chromatography, the author follows with detailed accounts of the use of liquid chromatography as a research tool, the nature of the chromatogram and contributing factors, problem assessment, separation development, considerations for proper operation of a liquid chromatograph, and gradient elution chromatography. Maintaining an emphasis on methods and applications, the book employs ten tested experiments to illustrate key issues and instill requisite experimental and operational skills. These experiments contain brief discussions with practical insights that put the subject matter into proper perspective, highlight the necessity of particular steps, and reveal how each contributes to the entire experiment. Example results are then discussed and supplementary examples for further investigation are suggested. For analytical chemists using HPLC as an analytical tool, or chemists, scientists, and students who need a thorough introduction to the subject, Practical HPLC Methodology and Applications provides all the information needed to develop successful separations and maximize the performance output of HPLC equipment in solving practical problems. Of related interest Trace and Ultratrace Analysis by HPLC Satinder Ahuja Written by a leading scientist in the field, this monograph provides the first definitive and technically up-to-date treatment of the theory, equipment, and applications of chemistrys most powerful reliable analytical technique. Coverage includes an encyclopedic compendium of common substances that require trace and ultratrace analysis, and features clear discussion of such important topics as considerations for HPLC equipment, sensitive detectors, sample preparation, method development, selectivity and computer-based optimizations, optimizing detectability, and much more. 1991 (0 471-51419-5) 432 pp. High Performance Liquid Chromatography in Biotechnology Edited by William S. Hancock Analytical chemists, biochemists, and chemical engineers will find this up-to-date guide to HPLCs recent developments essential for enhancing on-the-job technical expertise. Extensive coverage includes the broad applications of HPLC, ranging from major chromatographic techniques (including reversed phase, ion exchange, affinity and hydrophobic interaction chromatography) to specific separations such as those in monoclonal antibody and nucleic acid purification. Techniques for quality control programs and advanced technology are also discussed. 1990 (0 471-82584-0) 564 pp. Unified Separation Science J. Calvin Giddings This advanced text/monograph brings together for the first time the variety of techniques used for chemical separations by outlining their common underlying mechanisms. The mass transport phenomena underlying all separation processes are developed in a simple physical-mathematical form, facilitating analysis of alternative separation techniques and the factors integral to separation power. The first six chapters provide background material applicable to a wide range of separation methods, while the final five chapters illustrate specific techniques and methods. 1991 (0 471-52089-6) 320 pp.
The Chromatogram and What Contributes to It.
Approaching the Problem.
Developing the Separation.
Considerations for Proper Operation of a LiquidChromatograph.
Gradient Elution Chromatography.
Experiment 1: Demonstrating the Fundamentals.
Experiment 2: Normal-Phase Chromatography.
Experiment 3: Effect of Column Length and Recycle.
Experiment 4: Gel Permeation Chromatography Using Dual Detectors(UV and RI).
Experiment 5: Developing a Reverse Phase ChromatographicSeparation.
Experiment 6: Quantitation.
Experiment 7: Monitoring Kinetics.
Experiment 8: Preparative Liquid Chromatography.
Experiment 9: Analysis of Essential Oils (Steam Distillates).
Experiment 10: Gradient Elution.
Index. About the author BRIAN A. BIDLINGMEYER is a leading scientist in the field of liquid chromatography in which he has been active for over 20 years. He has published over 55 technical papers in the field and has made significant contributions in numerous areas. His wide ranging research into practical applications has included understanding the mechanism of ion pairing and surfactant containing mobile phases, fundamental studies into the role of bonding and pore size on protein separations, developing new methods and columns for the analysis of fatty acids and triglycerides, developing novel polymer and small molecule GPC separations, improving analysis of amino acids using derivatization techniques, identifying the use of bare silica gel for the reverse phase separation of amine containing molecules, simplifying direct analysis of drugs in serum, developing approaches for the optimization of chromatographic separations, and developing guidelines for preparative separations. As a result of his pioneering work, Dr. Bidlingmeyer has received numerous awards. He is a recipient of the Heinrich Emmanual Merck Award for contributions to analytical chemistry, the International Ion Chromatography Forum's Award for outstanding contributions to that field, an IR 100 Award for the development of a new method for amino acid analysis ("Pico-Tag" Method) and the Millipore Innovation Award for outstanding scientific contributions to the company. He also has won a Massachusetts Center for Excellence Corporation (MCEC) Grant for the development of a novel sample preparation device for sea water and received an award for outstanding service from the Western Carolinas Chromatography Discussion Group. Dr. Bidlingmeyer received his PhD in analytical chemistry from Purdue University studying under Dr. L. B. Rogers. He has served on numerous scientific councils, organization committees, and advisory boards. He is presently an Associate Editor and Contributing Editor for the Journal of Chromatographic Science, on the editorial advisory board of Frescnius' Zietschift for Analytical Chemistry (Germany), LC/GC and Preparative Chromatography. Since its commercial introduction nearly 25 years ago, high performance liquid chromatography (HPLC) has progressed from a complicated "art" to a straightforward separation science and has become one of the fastest growing techniques in the modern laboratory. But while HPLC instruments have become indispensable in science and industry and HPLC opportunities nearly unlimited, many of todays chemists, scientists, and technicians have little or no personal experience with the HPLC process. Written primarily for those new to the subject, Practical HPLC Methodology and Applications provides a broad foundation in the field of chromatography as well as all the information necessary to develop useful separations. Following an applications-oriented approach, the book presents a thorough account of how separations are developed along with where, how, and which HPLC technique(s) are most appropriate for accomplishing a particular separation. Serving as a bridge between strictly introductory texts and more advanced treatises, this book presents a great deal of important information from the formative years of HPLCmuch of which is drawn from "dated" references but is nonetheless integral to understanding the purposes and procedures of chromatography. Beginning with a general overview of modern liquid chromatography, the author follows with detailed accounts of the use of liquid chromatography as a research tool, the nature of the chromatogram and contributing factors, problem assessment, separation development, considerations for proper operation of a liquid chromatograph, and gradient elution chromatography. Maintaining an emphasis on methods and applications, the book employs ten tested experiments to illustrate key issues and instill requisite experimental and operational skills. These experiments contain brief discussions with practical insights that put the subject matter into proper perspective, highlight the necessity of particular steps, and reveal how each contributes to the entire experiment. Example results are then discussed and supplementary examples for further investigation are suggested. For analytical chemists using HPLC as an analytical tool, or chemists, scientists, and students who need a thorough introduction to the subject, Practical HPLC Methodology and Applications provides all the information needed to develop successful separations and maximize the performance output of HPLC equipment in solving practical problems. Of related interest Trace and Ultratrace Analysis by HPLC Satinder Ahuja Written by a leading scientist in the field, this monograph provides the first definitive and technically up-to-date treatment of the theory, equipment, and applications of chemistrys most powerful reliable analytical technique. Coverage includes an encyclopedic compendium of common substances that require trace and ultratrace analysis, and features clear discussion of such important topics as considerations for HPLC equipment, sensitive detectors, sample preparation, method development, selectivity and computer-based optimizations, optimizing detectability, and much more. 1991 (0 471-51419-5) 432 pp. High Performance Liquid Chromatography in Biotechnology Edited by William S. Hancock Analytical chemists, biochemists, and chemical engineers will find this up-to-date guide to HPLCs recent developments essential for enhancing on-the-job technical expertise. Extensive coverage includes the broad applications of HPLC, ranging from major chromatographic techniques (including reversed phase, ion exchange, affinity and hydrophobic interaction chromatography) to specific separations such as those in monoclonal antibody and nucleic acid purification. Techniques for quality control programs and advanced technology are also discussed. 1990 (0 471-82584-0) 564 pp. Unified Separation Science J. Calvin Giddings This advanced text/monograph brings together for the first time the variety of techniques used for chemical separations by outlining their common underlying mechanisms. The mass transport phenomena underlying all separation processes are developed in a simple physical-mathematical form, facilitating analysis of alternative separation techniques and the factors integral to separation power. The first six chapters provide background material applicable to a wide range of separation methods, while the final five chapters illustrate specific techniques and methods. 1991 (0 471-52089-6) 320 pp.
PUBLISHER:
Wiley
ISBN-13:
9780471572466
BINDING:
Hardback
BISAC:
Science
BOOK DIMENSIONS:
Dimensions: 164.00(W) x Dimensions: 241.50(H) x Dimensions: 26.40(D)
AUDIENCE TYPE:
General/Adult
LANGUAGE:
English