Buch, Englisch, Band 56, 183 Seiten, Format (B × H): 170 mm x 242 mm, Gewicht: 352 g
Reihe: Lecture Notes in Chemistry
Buch, Englisch, Band 56, 183 Seiten, Format (B × H): 170 mm x 242 mm, Gewicht: 352 g
Reihe: Lecture Notes in Chemistry
ISBN: 978-3-540-54286-5
Verlag: Springer Berlin Heidelberg
Contemporary chemical reaction theory is the characterization of Potential Energy Hypersurfaces (PES). The authors critically analyze chemically and mathematically suitable reaction path definitions. The book presents a simple mathematical analysis of stationary and critical points of the PES. It provides tools for studying chemical reactions by calculating reaction paths and related curves. A further aspect of the book is the dependence of PES properties on approximations used for the analysis. Recent quantum chemical calculations, particularly of single proton transfer processes, and experimental data are compared. The book addresses students and researchers in Theoretical Chemistry, Chemical Kinetics and related fields.
Zielgruppe
Research
Autoren/Hrsg.
Weitere Infos & Material
1 Guidelines in the Development of the Theory of Chemical Reactivity using the Potential Energy Surface (PES) Concept.- 1.1 The Potential Energy Surface (PES) Concept.- 1.2 The Dimensionality Problem.- 1.3 On the Definition of a Reaction Path (RP).- 1.4 The Hierarchy and Competition of Reaction Theories.- 1.5 What about the Calculation of Absolute Reaction Rates?.- 1.6 Potential Energy Calculation and Gradient Revolution.- 1.7 The “State of the Art” in Everyday Study of Chemical Reactivity.- References.- 2 Analysis of Multidimensional Potential Energy Surfaces — Stationary and Critical Points.- 2.1 Basic Definitions and Notations.- 2.2 Geometrical Properties of PES.- 2.3 Stationary Points.- 2.4 Location of Stationary Points.- 2.5 Testing of Numerical Procedures.- 2.6 Zero Eigenvalues of the Hessian.- References.- 3 Analysis of Multidimensional Potential Energy Surfaces — Paths —.- 3.1 the Simple Valley Floor Line.- 3.2 Mathematics of Valley Floors.- 3.3 Steepest Descent Paths.- 3.4 The Independence of Steepest Descent Paths from Parameterization and Coordinate System.- References.- 4 Quantum Chemical Pes Calculations: The Proton Transfer Reactions.- 4.1 The Problem in Visualization of PES Properties.- References.- 4.2 PES Properties Along the Bimolecular Single Proton Transfer.- References.
