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Atomic force microscopy [[electronic resource] ] : understanding basic modes and advanced applications / / Greg Haugstad
| Atomic force microscopy [[electronic resource] ] : understanding basic modes and advanced applications / / Greg Haugstad |
| Autore | Haugstad Greg <1963-> |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, c2012 |
| Descrizione fisica | 1 online resource (488 p.) |
| Disciplina | 620/.5 |
| Soggetto topico |
Atomic force microscopy
Scanning proble microscopy |
| ISBN |
1-283-64602-1
1-118-36069-9 1-118-36068-0 1-118-36066-4 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Atomic 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
2.1. 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 2.5.1. 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 3.2.1. 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 4.1. 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 5.1. Phase Measurement as a Diagnostic of Interaction Regime and Bistability |
| Record Nr. | UNINA-9910137615403321 |
Haugstad Greg <1963->
|
||
| Hoboken, N.J., : John Wiley & Sons, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Atomic force microscopy : understanding basic modes and advanced applications / / Greg Haugstad
| Atomic force microscopy : understanding basic modes and advanced applications / / Greg Haugstad |
| Autore | Haugstad Greg <1963-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, c2012 |
| Descrizione fisica | 1 online resource (488 p.) |
| Disciplina | 620/.5 |
| Soggetto topico |
Atomic force microscopy
Scanning proble microscopy |
| ISBN |
1-283-64602-1
1-118-36069-9 1-118-36068-0 1-118-36066-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Atomic 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
2.1. 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 2.5.1. 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 3.2.1. 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 4.1. 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 5.1. Phase Measurement as a Diagnostic of Interaction Regime and Bistability |
| Record Nr. | UNINA-9910814242903321 |
|
Haugstad Greg <1963->
|
||
| Hoboken, N.J., : John Wiley & Sons, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||