Visualization of Hydrogen-Bond Dynamics [electronic resource] :Water-Based Model Systems on a Cu(110) Surface / by Takashi Kumagai.
by Kumagai, Takashi [author.]; SpringerLink (Online service).
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BookSeries: Springer Theses, Recognizing Outstanding Ph.D. Research: 125Publisher: Tokyo : Springer Japan : 2012.Description: XIV, 131 p. 92 illus., 19 illus. in color. online resource.ISBN: 9784431541561.Subject(s): Chemistry | Chemistry, Physical organic | Chemistry | Physical Chemistry | Atomic/Molecular Structure and SpectraDDC classification: 541 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | QD450-882 (Browse shelf) | Available |
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| QA440-699 Teaching and Learning of Knot Theory in School Mathematics | QH359-425 Evolution in the Dark | QL750-795 Monkeys, Apes, and Humans | QD450-882 Visualization of Hydrogen-Bond Dynamics | GC1-1581 New Developments in Mode-Water Research | QC174.45-174.52 Dirac Spectra in Dense QCD | QC310.15-319 Thermodynamics of Information Processing in Small Systems |
Introduction -- Principles and Techniques -- Experiments -- Water Monomer: Structure and Diffusion of a Single Water Molecule -- Water Dimer: Direct Observation of Hydrogen-Bond Exchange -- Water Clusters: Formation of One-Dimensional Water Clusters -- Hydroxyl Group: Tunneling Dynamics of Hydrogen Atom -- Hydroxyl Dimer: Non-linear I–V Characteristics in an STM Junction -- Water-Hydroxyl Complexes: Direct Observation of a Symmetric Hydrogen Bond -- One-Dimensional Water-Hydroxyl Chain Complexes: Hydrogen-Atom Relay Reactions in Real Space -- Conclusions.
The hydrogen bond represents an important interaction between molecules, and the dynamics of hydrogen bonds in water create an ever-present question associated with the process of chemical and biological reactions. In spite of numerous studies, the process remains poorly understood at the microscopic level because hydrogen-bond dynamics, such as bond rearrangements and hydrogen/proton transfer reactions, are extremely difficult to probe. Those studies have been carried out by means of spectroscopic methods where the signal stems from the ensemble of a system and the hydrogen-bond dynamics were inferred indirectly. This book addresses the direct imaging of hydrogen-bond dynamics within water-based model systems assembled on a metal surface, using a scanning tunneling microscope (STM). The dynamics of individual hydrogen bonds in water clusters, hydroxyl clusters, and water-hydroxyl complexes are investigated in conjunction with density functional theory. In these model systems, quantum dynamics of hydrogen bonds, such as tunneling and zero-point nuclear motion, are observed in real space. Most notably, hydrogen atom relay reactions, which are frequently invoked across many fields of chemistry, are visualized and controlled by STM. This work presents a means of studying hydrogen-bond dynamics at the single-molecule level, providing an important contribution to wide fields beyond surface chemistry.
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