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100   $a20120302d2012      uy             0
101 0 $aeng
135   $aurnn|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aAtomic force microscopy$b[electronic resource] $eunderstanding basic modes and advanced applications /$fGreg Haugstad
210   $aHoboken, N.J. $cJohn Wiley & Sons$dc2012
215   $a1 online resource (488 p.)
300   $aDescription based upon print version of record
311 1 $a0-470-63882-6 
320   $aIncludes bibliographical references and index
327   $aAtomic Force Microscopy: Understanding Basic Modes and Advanced Applications; Contents; Preface; Acknowledgments; 1. Overview of AFM; 1.1. The Essence of the Technique; 1.2. Property Sensitive Imaging: Vertical Touching and Sliding Friction; 1.3. Modifying a Surface with a Tip; 1.4. Dynamic (or "AC" or "Tapping") Modes: Delicate Imaging with Property Sensitivity; 1.5. Force Curves Plus Mapping in Liquid; 1.6. Rate, Temperature, and Humidity-Dependent Characterization; 1.7. Long-Range Force Imaging Modes; 1.8. Pedagogy of Chapters; References; 2. Distance-Dependent Interactions
327   $a2.1. General Analogies and Types of Forces2.2. Van der Waals and Electrostatic Forces in a Tip-Sample System; 2.2.1. Dipole-Dipole Forces; 2.2.2. Electrostatic Forces; 2.3. Contact Forces and Mechanical Compliance; 2.4. Dynamic Probing of Distance-Dependent Forces; 2.4.1. Importance of Force Gradient; 2.4.2. Damped, Driven Oscillator: Concepts and Mathematics; 2.4.3. Effect of Tip-Sample Interaction on Oscillator; 2.4.4. Energy Dissipation in Tip-Sample Interaction; 2.5. Other Distance-Dependent Attraction and Repulsion: Electrostatic and Molecular Forces in Air and Liquids
327   $a2.5.1. Electrostatic Forces in Liquids: Superimposed on Van der Waals Forces2.5.2. Molecular-Structure Forces in Liquids; 2.5.3. Macromolecular Steric Forces in Liquids; 2.5.4. Derjaguin Approximation: Colloid Probe AFM; 2.5.5. Macromolecular Extension Forces (Air and Liquid Media); 2.6. Rate/Time Effects; 2.6.1. Viscoelasticity; 2.6.2. Stress-Modified Thermal Activation; 2.6.3. Relevance to Other Topics of Chapter 2; References; 3. Z-Dependent Force Measurements with AFM; 3.1. Revisit Ideal Concept; 3.2. Force-Z Measurement Components: Tip/Cantilever/Laser/Photodetector/Z Scanner
327   $a3.2.1. Basic Concepts and Interrelationships3.2.2. Tip-Sample Distance; 3.2.3. Finer Quantitative Issues in Force-Distance Measurements; 3.3. Physical Hysteresis; 3.4. Optical Artifacts; 3.5. Z Scanner/Sensor Hardware: Nonidealities; 3.6. Additional Force-Curve Analysis Examples; 3.6.1. Glassy Polymer, Rigid Cantilever; 3.6.2. Gels, Soft Cantilever; 3.6.3. Molecular-Chain Bridging Adhesion; 3.6.4. Bias-Dependent Electrostatic Forces in Air; 3.6.5. Screened Electrostatic Forces in Aqueous Medium; 3.7. Cantilever Spring Constant Calibration; References; 4. Topographic Imaging
327   $a4.1. Idealized Concepts4.2. The Real World; 4.2.1. The Basics: Block Descriptions of AFM Hardware; 4.2.2. The Nature of the Collected Data; 4.2.3. Choosing Setpoint: Effects on Tip-Sample Interaction and Thereby on Images; 4.2.4. Finite Response of Feedback Control System; 4.2.5. Realities of Piezoscanners: Use of Closed-Loop Scanning; 4.2.6. Shape of Tip and Surface; 4.2.7. Other Realities and Operational Difficulties-Variable Background, Drift, Experimental Geometry; References; 5. Probing Material Properties I: Phase Imaging
327   $a5.1. Phase Measurement as a Diagnostic of Interaction Regime and Bistability
330   $aThis book enlightens readers on the basic surface properties and distance-dependent intersurface forces one must understand to obtain even simple data from an atomic force microscope (AFM). The material becomes progressively more complex throughout the book, explaining details of calibration, physical origin of artifacts, and signal/noise limitations. Coverage spans imaging, materials property characterization, in-liquid interfacial analysis, tribology, and electromagnetic interactions. "Supplementary material for this book can be found by entering ISBN 9780470638828 on booksuppo
606   $aAtomic force microscopy
606   $aScanning proble microscopy
615  0$aAtomic force microscopy
615  0$aScanning proble microscopy
676   $a620/.5
700   $aHaugstad$b Greg$f1963-$0857941
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910137615403321
996   $aAtomic force microscopy$91915560
997   $aUNINA