Vom Spektrum zur Struktur: Dieses umfangreiche einführende Lehrbuch zeigt Ihnen, wie es geht! Anhand von mehr als 200 sorgfältig ausgewählten Beispielen lernen Sie die für die organische Chemie wichtigen spektroskopischen Methoden gründlich kennen. Sie erfahren, wie man Spektren erzeugt, interpretiert und nicht zuletzt mit den Ergebnissen anderer analytischer Verfahren verknüpft, um möglichst genaue Aussagen über Strukturen treffen zu können. Diese dritte Auflage legt noch mehr Wert darauf, die einzelnen Techniken in Übungsaufgaben zu diskutieren. Das Material wurde durchgesehen und aktualisiert.
This introductory textbook covers all the major spectroscopic techniques that cover the derivation of structural information from spectroscopic data. It incorporates over 200 carefully selected problems that are graded to develop and consolidate the students understanding of organic spectroscopy and to develop an understanding of how structures are derived.
This, the third edition has been thoroughly revised and updated and reflects the many developments in this area. It includes over 50 new problems and presents challenging examples that have been carefully selected to include all-important structural features and to emphasise connectivity arguments.
More emphasis on techniques is included in the problems and the advanced NMR topics section is expanded in the areas of decoupling and applications of the nuclear overhauser effect (nOe).
Introduction
Ultraviolet (UV) Spectroscopy
Infrared (IR) Spectroscopy
Mass Spectrometry
Nuclear Magnetic Resonance (NMR) Spectroscopy
¯13C NMR Spectroscopy
Miscellaneous Topics
Determing the Structure of Organic Molecules from Spectra
Problems
Appendix
Index
This introductory textbook covers all the major spectroscopic techniques that cover the derivation of structural information from spectroscopic data. It incorporates over 200 carefully selected problems that are graded to develop and consolidate the students understanding of organic spectroscopy and to develop an understanding of how structures are derived.
This, the third edition has been thoroughly revised and updated and reflects the many developments in this area. It includes over 50 new problems and presents challenging examples that have been carefully selected to include all-important structural features and to emphasise connectivity arguments.
More emphasis on techniques is included in the problems and the advanced NMR topics section is expanded in the areas of decoupling and applications of the nuclear overhauser effect (nOe).
Introduction
Ultraviolet (UV) Spectroscopy
Infrared (IR) Spectroscopy
Mass Spectrometry
Nuclear Magnetic Resonance (NMR) Spectroscopy
¯13C NMR Spectroscopy
Miscellaneous Topics
Determing the Structure of Organic Molecules from Spectra
Problems
Appendix
Index