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Applied Scanning Probe Methods VI : Characterization / edited by Bharat Bhushan, Satoshi Kawata
Contributor(s): Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: NanoScience and Technology | SpringerLink BücherPublisher: Berlin, Heidelberg : Springer-Verlag Berlin Heidelberg, 2007Description: Online-Ressource (XLV, 338 p. 195 illus, digital)ISBN:- 9783540373193
- 540
- 620.1/1299 22
- TA417.23
- QT 36.5
Contents:
Summary: The volumes V, VI and VII examine the physical and technical foundation for recent progress in applied scanning probe techniques. The first volume came out in January 2004 and the second to fourth volumes in early 2006. The field is progressing so fast that there is a need for a set of volumes every 12 to 18 months to capture latest developments. These volumes constitute a timely comprehensive overview of SPM applications. After introducing scanning probe microscopy, including sensor technology and tip characterization, chapters on use in various industrial applications are presented. IndustriPPN: PPN: 1645492486Package identifier: Produktsigel: ZDB-1-SCM | ZDB-2-CMS
Contents - Volume; 11 Scanning Tunneling Microscopy of Physisorbed Monolayers: From Self-Assembly to Molecular Devices; 11.1 Introduction; 11.2 Source of Image Contrast: Geometric and Electronic Factors; 11.3 Two-Dimensional Self-Assembly:Chemisorbed and Physisorbed Systems; 11.4 Self-Assembly on Graphite; 11.5 Beyond Self-Assembly; 11.6 Toward Molecular Devices; 11.7 Summary and Conclusions; References; 12 Tunneling Electron Spectroscopy Towards Chemical Analysis of Single Molecules; 12.1 Introduction; 12.2 Vibrational Excitation Through Tunneling Electron Injection
12.3 IET Process of Vibrational Excitation12.4 Manipulation of Single Molecule Through Vibrational Excitation; 12.5 Action Spectroscopy; 12.6 Conclusions; References; 13 STM Studies on Molecular Assembly at Solid/Liquid Interfaces; 13.1 Introduction; 13.2 STM Operations in Liquids; 13.3 Surface Structures of Substrates; 13.4 SA of Organic Molecules; 13.5 SA of Inorganic Complexes; 13.6 Conclusions; References; 14 Single-Molecule Studies on Cells and Membranes Using the Atomic Force Microscope; 14.1 Abstract; 14.2 Introduction; 14.3 Principles of Atomic Force Microscopy
14.4 Imaging of Membrane-Protein Complexes14.5 Single-Molecule Recognition on Cells and Membranes; 14.6 Unfolding and Refolding of Single-Membrane Proteins; 14.7 Simultaneous Topography and RecognitionImaging on Cells (TREC); 14.8 Concluding Remarks; References; 15 Atomic Force Microscopy of DNA Structure and Interactions; 15.1 Introduction: The Single-Molecule, Bottom-Up Approach; 15.2 DNA Structure and Function; 15.3 The Atomic Force Microscope; 15.4 Binding of DNA to Support Surfaces; 15.5 AFM of DNA Systems; 15.6 Outlook; References
16 Direct Detection of Ligand-Protein Interaction Using AFM16.1 Cell Structures and Functions; 16.2 Forces Acting Between Molecules; 16.3 Force Spectroscopy; 16.4 Detection of the Specific Interactions on Cell Surface; 16.5 Summary; References; 17 Dynamic Force Microscopy for Molecular-Scale Investigations of Organic Materials in Various Environments; 17.1 Brief Overview; 17.2 Principles and Instrumentation of Frequency Modulation DetectionMode Dynamic Force Microscopy; 17.3 Noise in Frequency Modulation Atomic Force Microscopy
17.4 High-Resolution Imagingof Organic Molecules in Various Environments17.5 Investigations of Molecular Properties; 17.6 Summary and Outlook; References; 18 Noncontact Atomic Force Microscopy; 18.1 Introduction; 18.2 NC-AFM System the Using FM Detection Method; 18.3 Identification of Subsurface Atom Species; 18.4 Tip-Induced Structural Change on a Si(001) Surface at 5 K; 18.5 Influence of Surface Stress on Phase Changein the Si(001) Step at 5 K; 18.6 Origin of Anomalous Dissipation Contraston a Si(001) Surface at 5 K; 18.7 Summary; References
19 Tip-Enhanced Spectroscopy for Nano Investigation of Molecular Vibrations
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