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Other Applied Science Fields
Materials Science
Materials Characterization Techniques
1. Introduction to Materials Characterization
2. Microscopy Techniques
3. Diffraction Techniques
4. Spectroscopic Techniques
5. Thermal Analysis Techniques
6. Mechanical Characterization Techniques
7. Surface Analysis and Characterization
8. Advanced and Specialized Techniques
9. Data Analysis and Interpretation
10. Technique Selection and Method Development
8.
Advanced and Specialized Techniques
8.1.
In-Situ Characterization
8.1.1.
Environmental Microscopy
8.1.1.1.
Environmental SEM
8.1.1.2.
Environmental TEM
8.1.1.3.
Liquid Cell Microscopy
8.1.2.
High Temperature Characterization
8.1.2.1.
Hot Stage Microscopy
8.1.2.2.
High Temperature XRD
8.1.2.3.
In-Situ Mechanical Testing
8.1.3.
Real-Time Process Monitoring
8.1.3.1.
Dynamic Observations
8.1.3.2.
Time-Resolved Measurements
8.1.3.3.
Process Control Applications
8.2.
Synchrotron-Based Techniques
8.2.1.
High-Energy X-ray Diffraction
8.2.2.
X-ray Absorption Spectroscopy
8.2.3.
X-ray Tomography
8.2.4.
Time-Resolved Studies
8.3.
Neutron Scattering Techniques
8.3.1.
Small Angle Neutron Scattering
8.3.2.
Neutron Reflectometry
8.3.3.
Inelastic Neutron Scattering
8.3.4.
Magnetic Structure Analysis
8.4.
Electron Energy Loss Spectroscopy
8.4.1.
Core Loss Spectroscopy
8.4.2.
Low Loss Spectroscopy
8.4.3.
Elemental Mapping
8.4.4.
Electronic Structure Analysis
8.5.
Atom Probe Tomography
8.5.1.
Field Evaporation Principles
8.5.2.
3D Atomic Reconstruction
8.5.3.
Chemical Analysis
8.5.4.
Interface Characterization
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7. Surface Analysis and Characterization
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9. Data Analysis and Interpretation