Tautomerism (eBook)

Methods and Theories

Liudmil Antonov (Herausgeber)

eBook Download: PDF
2013 | 1. Auflage
400 Seiten
Wiley-VCH (Verlag)
978-3-527-65885-5 (ISBN)

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Covering the gap between basic textbooks and over-specialized scientific publications, this is the first reference available to describe this interdisciplinary topic for PhD students and scientists starting in the field.

The result is an introductory description providing suitable practical examples of the basic methods used to study tautomeric processes, as well as the theories describing the tautomerism and proton transfer phenomena. It also includes different spectroscopic methods for examining tautomerism, such as UV-VIs, time-resolved fluorescence spectroscopy, and NMR spectroscopy, plus the theoretical and practical background information.

With its excellent overview of the methods, theories and examples, this is the perfect guide for any scientist dealing with tautomeric compounds in a wider context.

Liudmil Antonov is a Professor of Analytical and Physical Organic Chemistry at Bulgarian Academy of Sciences. Having obtained MSc (1989) and PhD (1994) degree from University of Sofia, he spent 1 year at Tokyo Institute of Technology before taking an appointment at University of Forestry (UF) in Sofia. In 1998 he was appointed as youngest in Bulgaria Associated Professor in Analytical Chemistry and from 1999 to 2002 headed the Department of Chemistry UF. After stays at AIST (Japan, 2002, 2006) as JSPS Fellow and at Humboldt University of Berlin (2003-2004) as Alexander von Humboldt Fellow and work for European Commission as reviewer and panel member (Directorate General for Research, 2001-2005) he joined Bulgarian Academy of Sciences in 2007. He has authored 83 research papers in the fields of tautomerism, dye chemistry, new materials, chemometrics, and instrumental analysis, cited over 1200 times.

Preface

TAUTOMERISM: INTRODUCTIN, HISTORY, AND RECENT DEVELOPMENTS IN EXPERIMENTAL AND THEORETICAL METHODS
The Definition and Scope of Tautomerism: Principles and Practicalities
Causes of Reversal in Tautomeric Form: Aromatic Resonance
Causes of Reversal in Tautomeric Form: Lone-Pair and Dipolar Repulsion
Causes of Reversal in Tautomeric Form: Selective Stabilization Through "Far" Intramolecular Hydrogen Bonding
Changes in Tautomeric Form Brought About by Electronegative Substituents
The Influence of Solvent on Tautomeric Form
Tautomeric Equilibrium: Historical Overview of an Analytical Problem
Short Historical Overview of Tautomerization Dynamics
Conclusions and Outlook

ABSORPTION UV-vis SPECTROSCOPY AND CHEMOMETRICS: FROM QUALITATIVE CONCLUSIONS TO QUANTITATIVE ANALYSIS
Introduction
Quantitative Analysis of Tautomeric Equilibria
Analysis of Real Tautomeric Systems
Concluding Remarks

STUDIES OF PHOTOINDUCED NH TAUTOMERISM BY STATIONARY AND TIME-RESOLVED FLUORESCENCE TECHNIQUES
Introduction
Photoinduced Proton/Hydrogen Atom Transfer
Fluorescence Techniques for Studying Tautomerism
Tautomerism in Bifunctional NH/N Azaaromatics
Ab initio and DFT Computational Methods
NH Tautomerism as a Tool in Biophysics
Concluding Remarks

FEMTOSECOND PUMP-PROBE SPECTROSCOPY OF PHOTOINDUCED TAUTOMERISM
Introduction
Ultrafast Pump-Probe Spectroscopy
Dynamics from Pump-Probe Spectroscopy
Reaction Mechanism
Reaction-Path-Specific Wavepacket Dynamics in Double ESIPT
Internal Conversion
Summary and Conclusions

NMR SPECTROSCOPY STUDY OF TAUTOMERISM IN SOLUTION AND IN THE SOLID STATE
Introduction
Methodologies of NMR Spectroscopy to Study Tautomerism
Types of Tautomerism Studied by NMR Spectroscopy
Conclusions and Outlook

ISOTOPE EFFECTS ON CHEMICAL SHIFTS AS A TOOL IN THE STUDY OF TAUTOMERIC EQUILIBRIA
Introduction
Experimental Requirements
Isotope Effects on Chemical Shifts
Secondary Equilibrium Isotope Effects on CS
Primary Isotope Effects
Solid State
Theoretical Calculations
Examples
Overview

TAUTOMER-SELECTIVE SPECTROSCOPY OF NUCLEOBASES, ISOLATED IN THE GAS PHASE
Introduction
Techniques
Guanine
Adenine
Cytosine
Uracil and Thymine
Base Pairs
Outlook

DIRECT EVIDENCE OF SOLID-STATE TAUTOMERISM BY DIFFRACTION METHODSD: ISOMERS, EQUILIBRIA, AND KINETICS
Application of X-Ray Diffraction to Study Tautomerism
Examples of X-Ray Diffraction Analysis of Proton Transfer
Other Diffraction Methods Used to Study Proton Transfer Reactions

DYNAMICS OF GROUND- AND EXCITED-STATE INTRAMOLECULAR PROTON TRANSFER REACTIONS
Introduction
Transition State Theory
Two Examples of Tautomerization
The Role of the Solvent
Solvent Friction and Solvent Dynamics
The Solvent Coordinate: Basics
Polarization Fluctuations
The Solvent Coordinate: An Application
Electronic Rearrangement
The Rug that Ties the (Classical) Room Together
Quantum and Classical
Quantum Decay
Coupling Quantum and Classical Motion: A Simple Example
Nonlinear Optics
Femtochemistry
Concluding Remarks

FORCE FIELD TREATMENT OF PROTON AND HYDROGEN TRANSFER IN MOLECULAR SYSTEMS
Introduction
Computational Approaches to Proton Transfer
Proton Transfer Reactions with MMPT
Applications of MMPT
Discussion and Outlook

THE SCOPE AND LIMITATIONS OF LSER IN THE STUDY OF TAUTOMER RATIO
Introduction
The Taft-Kamlet LSER Methodology
LSER Case Histories in the Field of Tautomerism
Overview

THE "BASICITY METHOD" FOR ESTIMATING TAUTOMER RATIO: A RADICAL RE-APPRAISAL
Introduction
Experimental Protocol
The Derivation of Correction Factors
Regularities Revealed by Correction Factors
Complicating Factors in the Use of the "Basicity Method"
Tautomeric Problems to Which the "Basicity Method" Is Inapplicable
Overview

QUANTUM CHEMICAL CALCULATION OF TAUTOMERIC EQUILIBRIA
Introduction
Computational Procedures
Solvent Effects
Applications of Quantum Chemical Methods to Tautomeric Equilibria
Concluding Remarks

Index

Erscheint lt. Verlag 17.10.2013
Sprache englisch
Themenwelt Naturwissenschaften Chemie Organische Chemie
Technik
Schlagworte Chemie • Chemistry • Computational Chemistry & Molecular Modeling • Computational Chemistry u. Molecular Modeling • Organische Chemie • Physical Chemistry • Physical Organic Chemistry • Physikalische Chemie • Physikalische Organische Chemie • spectroscopy • Spektroskopie • Tautomerie
ISBN-10 3-527-65885-8 / 3527658858
ISBN-13 978-3-527-65885-5 / 9783527658855
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