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Annual Reports in Computational Chemistry
This timely and critical review of important topics and recent literature in computational chemistry applies its findings to all chemical disciplines
David A. Dixon (Series edited by)
9780444639400, Elsevier Science
Hardback, published 29 August 2017
292 pages
22.9 x 15.1 x 2.3 cm, 0.59 kg
Annual Reports in Computational Chemistry, Volume 13 provides timely and critical reviews of important topics in computational chemistry. Topics in this new release include chapters on the Quantum Chemical Model for Molecular Properties and Processes at the Extreme High Pressure, a section on Interpreting Bonding and Spectra with Correlated, One-Electron Concepts from Electron Propagator Theory, Benchmark databases of intermolecular interaction energies: design, construction, and significance, Gaussian Accelerated Molecular Dynamics: Theory, Implementation and Applications, and Dissociation in Binary Acid/Base Clusters: An Examination of Inconsistencies Introduced into the Many-Body Expansion by Naive Fragmentation Schemes. Topics covered in this series include quantum chemistry, molecular mechanics, force fields, chemical education, and applications in academic and industrial settings. Focusing on the most recent literature and advances in the field, each article covers a specific topic of importance to computational chemists.
Section A: Quantum Chemistry - Weak and Non-Bonded Interactions 1. Benchmark Databases of Intermolecular Interaction Energies: Design, Construction, and Significance Konrad Patkowski 2. Dissociation in Binary Acid/Base Clusters: An Examination of Inconsistencies Introduced Into the Many-Body Expansion by Naïve Fragmentation Schemes Gregory S. Tschumper, Thomas L. Ellington and Sarah N. Johnson 3. The Quantum Chemical Study of Chemical Reactions at Extreme High Pressure by Means of the Extreme-Pressure Polarizable Continuum Model Roberto Cammi Section B: Quantum Chemistry - Novel Approaches for Understanding Bonding 4. Interpreting Bonding and Spectra With Correlated, One-Electron Concepts From Electron Propagator Theory J. Vincent Ortiz Section C: Quantum Chemistry - Periodic Simulations 5. Plane–Wave DFT Methods for Chemistry Eric J. Bylaska Section D: Biochemical Simulations - Molecular Dynamics 6. Gaussian Accelerated Molecular Dynamics: Theory, Implementation, and Applications Yinglong Miao and J. Andrew McCammon
Subject Areas: Physical chemistry [PNR], Analytical chemistry [PNF]
