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This multi-author contributed volume contains chapters featuring the development of the DV-X method and its application to a variety of problems in Materials Science and Spectroscopy written by leaders of the respective fields. The volume contains a Foreword written by the Chairs of Japanese and Korea DV-X alpha Societies. This book is aimed at individuals working in Quantum Chemistry.
Includes advanced reviews on the DV-Xa method Describes future applications in materials science and spectroscopy Features historical developments Contributors from academia and industry a method Contributors from academia and industry Includes supplementary material: sn.pub/extras
Auteur
Prof. Dr. Tomohiko ISHII is based at the Department of Advanced Materials Science
Faculty of Engineering, Kagawa University, Japan. He has published 166 articles.
Membership in Societies:
The Physical Society of Japan
The Chemical Society of Japan
Japan Society of Coordination Chemistry
The Society for Discrete Variational X Alpha
Contenu
The DV-Xa Molecular Orbital Calculation Method and Recent Development .- Algebraic Molecular Orbital Theory.- Analytical Expression of Molecular Integrals over Slater-Type Functions for Generating their Polynomial Expressions.- Atom-Atom Interaction Potential from the Gaussian Quadrature Method and Classical Molecular Dynamics.- Comparison of Contributions to Interatomic Interactions between Covalent and Ionic Bonds from Total Energy Calculations.- Total Energy Calculation by DV-Xa Method and Its Accuracy.- Energy Expression of the Chemical Bond between Atoms in Hydrides and Oxides and Its Application to Materials Design.- Comparative Study on Optical Properties of YPO 4 : Mn, Zr Phosphor by Experiment and Calculation.- Applications of DV-Xa Method for New Material Design in Dye-Sensitized Solar Cell.- Microscopic Approach to Water by Using the DV-Xa Method, and Some Innovative Applications.- Electronic Structure and Chemical Bonding of Li 1.1 Nb 0.9 O 2-y as a Negative Electrode Material for Lithium Secondary Batteries.- Chemical Bonding, Point Defects and Positron Lifetimes in FeSi 2 from First-Principles Calculations.- Structural Analysis of Al 2 TiO 5 at Room Temperature and at 600 ºC by DV-Xa Approach (II).- Wavelength of Luminescence and Energy Level Structure of Binuclear Copper(I) Complex.