nanoHUB-U: Fundamentals of Atomic Force Microscopy, Part 1: Fundamental Aspects of AFM

nanoHUB-U: Fundamentals of Atomic Force Microscopy, Part 1: Fundamental Aspects of AFM

Offering: 01a Section: Self Paced

Video
  • Lecture 2.6: Combining contact mechanics with intermolecular interactions 1. Lecture 2.6: Combining contact… 0
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  • How to Model? 2. How to Model? 45.43333333333333
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  • The infinitely hard tip/sample with no surface forces 3. The infinitely hard tip/sample… 140.96666666666667
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  • Hertz Contact - indentation, no surface force 4. Hertz Contact - indentation, n… 228.13333333333333
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  • Combining van der Waals force & DMT contact 5. Combining van der Waals force … 425.26666666666665
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  • DMT Contact – indentation and surface forces 6. DMT Contact – indentation an… 503.26666666666665
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  • JKR Contact 7. JKR Contact 626.13333333333333
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  • The model you choose must fit your experiments 8. The model you choose must fit … 789.86666666666667
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  • Plots of a few VEDA models 9. Plots of a few VEDA models 852.4666666666667
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  • Week 3: Brief introduction to VEDA plus discussion of AFM Instrumentation 10. Week 3: Brief introduction to … 909.16666666666663
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L2.6: Tip-Surface Interactions (Contact) - Hertz, JKR, DMT

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