Supramolecular Chemistry on Surfaces


Book Description

Supramolecular Chemistry on Surfaces 2D Networks and 2D Structures Explore the cutting-edge in 2D chemistry on surfaces and its applications In Supramolecular Chemistry on Surfaces: 2D Networks and 2D Structures, expert chemist Neil R. Champness delivers a comprehensive overview of the rapidly developing field of two-dimensional supramolecular chemistry on surfaces. The book offers explorations of the state-of-the-art in the discipline and demonstrates the potential of the latest advances and the challenges faced by researchers in different areas. The editor includes contributions from leading researchers that address new spectroscopic methods which allow for investigations at a sub-molecular level, opening up new areas of understanding in the field. Included resources also discuss important supramolecular strategies, like hydrogen-bonding, van der Waals interactions, metal-ligand coordination, multicomponent assembly, and more. The book also provides: A thorough introduction to two-dimensional supramolecular chemistry on surfaces Comprehensive explorations of the characterization and interpretation of on-surface chemical reactions studied by ultra-high resolution scanning probe microscopy Practical discussions of complexity in two-dimensional multicomponent assembly, including explorations of coordination bonds and quasicrystalline structures In-depth examinations of covalently bonded organic structures via on-surface synthesis Perfect for polymer chemists, spectroscopists, and materials scientists, Supramolecular Chemistry on Surfaces: 2D Networks and 2D Structures will also earn a place in the libraries of physical and surface chemists, as well as surface physicists.




SUPRAmolecular dye chemistry


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Halogen Bonding


Book Description

This series presents critical reviews of the present position and future trends in modern chemical research concerned with chemical structure and bonding. It contains short and concise reports, each written by the world's renowned experts. The series is still valid and useful after five or ten years. More information is available at springerlink.com along with the electronic version of the whole content.




Superconductivity in Complex Systems


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Principles and Applications of Density Functional Theory in Inorganic Chemistry II


Book Description

E. Clot, O. Eisenstein: Agostic Interactions from a Computational Perspective: One Name, many Interpretations.- Robert J. Deet: Recent Developments in Computational Bioinorganic Chemistry.- E. Ruiz: Theoretical Study of the Exchange Coupling in Large Polynuclear Transition Metal Complexes Using DFT Methods.- D. Sánches-Portal, P. Ordejón, E. Canadell: Computing the Properties of Materials from First Principles with SIESTA.- F. Corà, M. Alfredsson, G. Mallia, D.S. Middlemiss, W.C. Mackrodt, R. Dovesi, R. Orlando: The Performance of Hybrid Density Functionals in Solid State Chemistry




Principles and Applications of Density Functional Theory in Inorganic Chemistry II


Book Description

It is difficult to overestimate the impact that density functional theory has had on computational quantum chemistry over the last two decades. Indeed, this period has seen it grow from little more than a theoreticalcuriosity to become a central tool in the computational chemist s armoury. Arguably no area of ch- istry has benefited more from the meteoric rise in density functional theory than inorganic chemistry. the ability to obtainreliable results in feasible ti- scales on systems containing heavy elements such as the d and f transition - tals has led to an enormous growth in computational inorganic chemistry. The inorganic chemical literature reflects this growth; it is almost impossible to open a modern inorganic chemistry journal without finding several papers devoted exclusively or in part to density functional theory calculations. The real imp- tance of the rise in density functional theory in inorganic chemistry is undou- edly the much closer synergy between theory and experiment than was p- viously posible. In these volumes, world-leading researchers describe recent developments in the density functional theory and its applications in modern inorganic and b- inorganic chemistry. These articles address key issues key issues in both sol- state and molecular inorganic chemistry, such as spectroscopy, mechanisms, catalysis, bonding and magnetism. The articles in volume I are more focussed on advances in density functional methodogy, while those in Volume II deal more with applications, although this is by no means a rigid distinction.




Advances in Shape Memory Polymers


Book Description

Shape memory materials are immensely useful because of their capability to recover their original shapes upon exposure to an external stimulus such as heat, moisture, light or a magnetic field. This book reviews key recent research in shape memory polymers, their properties and applications. Topics include the relationship between morphological structures and shape memory properties; high performance Tg and Tm type shape memory polymers; structures of shape memory polymers with supramolecular switches; and the thermally-active and moisture-active shape memory effect of supermolecular shape memory polymers.Advances in shape memory polymers is an essential reference for polymer and textile material students, scientists, designers, engineers and manufacturers. It is also an invaluable guide for professionals in the biomedical, electronics and engineering industries. - Reviews key recent research in shape-memory polymers, their properties and applications - Opening chapters address the relationship between morphological structures and shape memory properties and high performance Tg and Tm type shape memory polymers - Chapters cover thermally-active and moisture-active shape memory effect of supermolecular shape memory polymers, among other topics




Layered Double Hydroxides


Book Description

D.G. Evans, R.C.T. Slade: Structural Aspects of Layered Double Hydroxides.- J. He, M. Wei, B. Li, Y. Kang, D.G. Evans, X. Duan: Preparation of Layered Double Hydroxides.- C. Taviot-Gueho, F. Leroux: In Situ Polymerization and Intercalation of Polymers in Layered Double Hydroxides.- G.R. Williams, A.I. Khan, D. O'Hare: Mechanistic and Kinetic Studies of Guest Ion Intercalation into Layered Double Hydroxides Using Time-Resolved, In-Situ X-Ray Powder Diffraction.- F. Li, X. Duan: Applications of Layered Double Hydroxides