Enhanced descriptions from Syndetics:

Detectors for Liquid Chromatography Edited by Edward S. Yeung Written by an expert in the field, this comprehensive guide explains the basic principles behind detector response instrumentation and selected applications. Early chapters cover absorption detectors for high performance liquid chromatography, FTIR detection, indirect absorbance detectors, fluorometric detection, and polarimetric detectors. Coverage continues with detection based on electrical and electrochemical measurements, mass spectrometry as an online detector for HPLC, and miscellaneous methods. 1986 0 471-82169-1 366 pp. Small Bore High Performance Liquid Chromatography Edited by Raymond R. W. Scott A state-of-the-art guide that demonstrates how to design, construct, and pack optimized small bore columns, the center of any chromatography system. Case examples show the use of these columns for high resolution, very fast analysis, and special methods for molecular weight determinations. Applications from a wide range of industrial and forensic analyses aid in developing sophistication in a number of useful techniques. The book provides essential information on topics such as calculating the minimum column radius, detectors, and molecular diffusion. Includes 92 illustrations and 14 tables to enhance explanations of microbore HPLC methods. 1984 0 471-80052-X 271 pp. Reversed-Phase High Performance Liquid Chromatography: Theory, Practice, and Biomedical Applications Ante M. Krstulovic and Phyllis R. Brown Reversed-phase liquid chromatography has increased tremendously in popularity over the past ten years. Estimates show that more than 80% of all HPLC separations are performed using this technique. This book covers both theoretical aspects of RPLC and practical information needed in diverse areas of research; it also contains a review of the RPLC applications in the biomedical/biochemical field, with references and collateral readings. Material is presented in a practical, problem-solving manner and should be immensely useful in theoretical aspects of RPLC and all areas of scientific research, particularly the biomedical/biochemical field, where RPLC has made its largest impact. 1982 0 471-05369-4 296 pp.

Table of contents provided by Syndetics

• The Theory of the Dynamics of Liquid Chromatography
• Mechanism of Solute Retention in Chromatography
• Oxide Stationary Phases
• Carbon in Liquid Chromatography
• Organic Polymeric Stationary Phases
• Size-Exclusion Liquid Chromatography
• High Performance Affinity Chromatography
• Separation of Chiral Compounds with -Acid Glycoprotein as Selector
• High-Speed Liquid Chromatography
• A Theoretical Approach to Derivatizations for HPLC
• Preparative Liquid Chromatography
• Process High Performance Liquid Chromatography
• Precision in HPLC
• HPLC as a Source of Information about Chemical Structure of Solutes
• Field-Flow Fractionation: An HPLC Analogue
• Multidimensional Techniques in Chromatography
• Index

Author notes provided by Syndetics

PHYLLIS R. BROWN is a Professor of chemistry at the University of Rhode Island. She received her PhD in chemistry from Brown University. She is the author of more than 130 articles and two books, Reversed-Phase High Performance Liquid Chromatography Theory, Practice, and Biomedical Applications (Wiley), and High Pressure Liquid Chromatography: Biochemical and Biomedical Applications. She is a member of many professional societies, including the American Chemical Society, the American Association of Clinical Chemists, and the American Society of Biological Chemists, Inc. In 1988 she received "The Tswett Chromatography Medal" and in 1989 she will be presented with the Dal Nogare Award. RICHARD A. HARTWICK is Associate Professor at Rutgers University. He received a PhD in 1978 from the University of Rhode Island. In 1979, he was a National Science Foundation/ NATO postdoctoral fellow at Edinburgh University under Professor John Knox. He joined the faculty of Rutgers in 1980. He has written over 100 research articles on the subject of liquid chromatography.