Z706043
Sigma
Chiral Analysis
| ISBN-10: | 0-44451669-7 |
| ISBN-13: | 978-0-44451669-5 |
Description
| General description | Chiral Analysis covers an important area of analytical chemistry of relevance to a wide variety of scientific professionals. The target audience is scientific professionals with an undergraduate background in chemistry or a related discipline, specifically organic chemists, researchers in drug discovery, pharmaceutical researchers involved with process analysis or combinatorial libraries, and graduate students in chemistry. Chapters have been written with the nonspecialist in mind so as to be self-contained |
Properties
| publication info | K. Busch and M. Busch, ed., Elsevier Science, 2006, 720 pp., hard cover |
Table Of Contents
| Table of Contents | PART I Chapter 1. A History of Chirality Chapter 2: Chiral Asymmetry in Nature Chapter 3. Physical Properties and Enantiomeric Composition Chapter 4. Emerging High-Throughput Screening Methods for Asymmetric Induction . PART II Chapter 5. Analysis of Chiral Chromatographic Separations by Molecular Modeling Chapter 6. Gas chromatographic enantioseparation of chiral pollutants – Techniques and Results Chapter 7. HPLC Resolution Using Polysaccharide Derivatives as CSPs Chapter 8. Chiral Separations by Capillary Electrophoresis Chapter 9. Chiral Separations in Microfluidic Devices PART III Chapter 10. Instrumental Aspects of Chiroptical Detection Chapter 11. Micro-Scale Polarimetry . Chapter 12. Chiral Analysis by Regression Modeling of Spectral Data Chapter 13. Electronic Circular Dichroism for Chiral Analysis Chapter 14. Determination of Molecular Stereochemistry using Optical Rotatory Dispersion, Vibrational Circular Dichroism and Vibrational Raman Optical Activity Chapter 15. Vibrational Optical Activity in Chiral Analysis Chapter 16. Raman Optical Activity Chapter 17 Mass Spectral Methods of Chiral Analysis Chapter 18 Novel Chiral Derivatizing Agents Powerful for Enantioresolution and Determination of Absolute Stereochemistry by X-Ray Crystallographic and 1H NMR Anisotropy Methods |
