Self-Organization of Molecular Systems: From Molecules and Clusters to Nanotubes and Proteins by Nino RussoSelf-Organization of Molecular Systems: From Molecules and Clusters to Nanotubes and Proteins by Nino Russo

Self-Organization of Molecular Systems: From Molecules and Clusters to Nanotubes and Proteins

byNino RussoEditorVictor Ya Antonchenko, Eugene Kryachko

Paperback | June 2, 2009

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The NATO ARW "Molecular Self-Organization in Micro-, Nano-, and Macro- Dimensions: From Molecules to Water, to Nanoparticles, DNA and Proteins" to commemorate Professor Alexander S. Davydov was held in Kiev, Ukraine, on 8-12 June, 2008, at the Bogolyubov Institute for Theoretical Physics of the National Academy of Sciences of Ukraine. Theobjective ofthisNATOARWistounveilandformulatetheprincipalfeatures that govern myriads of the molecular self-organization processes in micro-, nano-, and macro-dimensions from the following key representatives such as liquid - ter and aqueous solutions, and molecular liquids, nanodots, nanoparticles including gold, solitons, biomolecules such as DNA and proteins, biopolymers and bios- sors, catalysis, molecular modeling, molecular devices, and thin ?lms, and to offer another, more advanced directions in computational, experimental, and technolo- cal areas of nano- and bioscience towards engineering novel and powerful molecular self-organized assemblies with tailored properties. Nanoscience is indeed one of the most important research and development fr- tiers in modern science. Simplistically, nanoscience is the science of small particles of materials of a size of nanometre. Molecular nanoscience and nanotechnology have brought to us the unprecedented experimental control of the structure of matter with novel extraordinary properties that open new horizons and new opportunities, and new ways to make things, particularly in our everyday life, to heal our bodies, and to care of the environment. Unfortunately, they have also brought unwelcome advances in weaponry and opened yet more ways to foul up the world on an en- mous scale.
Title:Self-Organization of Molecular Systems: From Molecules and Clusters to Nanotubes and ProteinsFormat:PaperbackDimensions:400 pages, 23.5 × 15.5 × 0.01 inPublished:June 2, 2009Publisher:Springer-Verlag/Sci-Tech/TradeLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9048124832

ISBN - 13:9789048124831

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Table of Contents

Preface. Recent Progress on Small Hydrogen Molecular Ions; Al. Alijah.- FTDT Studies of Metallic Nanoparticle Systems; A.L. Atkinson et al.- Exploring the nitric oxide detoxification mechanism of Mycobacterium tuiberculosis truncated Haemoglobin N; A. Bidon-Chanal et al.-Complex Symmetry, Jordan Blocks And Microscopic Selforganization: An examination of the limits of quantum theory based on nonself-adjoint extensions with illustrations from chemistry and physics;E. J. Brändas.- Directed transport of the Davydov solitons by unbiased a.c. forces; L.Brizhik et al.- Some properties of solitons; L.S. Brizhik et al.-Spectral Effects of Resonance Dynamic Intermolecular Interaction for Crystalline Carboxylic Acids at Temperature Phase Transitions; V.D.Danchuk et al.- Linear Augmented Cylindrical Wave Method for Electronic Structure of Isolated, Embedded, and Double-Walled Nanotubes; P. D'Yachkov, D. Makaev.- Anharmonicity and Soliton-Mediated Transport: Thermal Solitons, Solectrons and Electric Transport in Nonlinear Conducting Lattices; w. Ebeling et al.- How Exponential Type Orbitals Recently Became a Viable Basis Set Choice in Molecular Electronic Structure Work and When to Use Them; P. E. Hoggan.- Cation hydrolysis phenomenon in aqueous solution: towards understanding it by computer simulations; M. Holovko et al.- Davydov' s solitons in DNA; V. D. Lakhno.- Exploring the nitric oxide detoxification mechanism of Mycobacterium tuberculosis truncated Haemoglobin N; A. Bidon-Chanal et al.- Gold in Hydrogen Bonding Motif: Fragments of Essay; E. S. Kryachko.- Interatomic potential for platinum and self-diffusion on Pt (111) surface by molecular-dynamics simulation; N.J. Papanicolaou, N. Panagiotide.- Potential energy surfaces for reaction catalyzed by metalloenzymes from quantum chemical computations; M. Leopoldin et al.- Some properties of solitons; L.S. Brizhik et al.- Hydration effects on photophysical properties of collagen; A.Scordino et al.- Cluster quantumchemical study of the Grignard reagent formation; A. V. Tulub, V. V. Porsev.-