Lectures
- 1. Introduction
- 2. Classification Schemes for the Elements
- 3. Rutherford Model, Bohr Model
- 4. Atomic Spectra of Hydrogen
- 5. Shell Model (Bohr-Sommerfeld Model)
- 6. De Broglie, Heisenberg, and Schrödinger
- 7. Octet Stability by Electron Transfer
- 8. Born-Haber Cycle
- 9. Electronegativity, Partial Charge, Polar Bonds and Polar Molecules
- 10. Energy Level Diagrams
- 11. Shapes of Molecules
- 12. Metallic Bonding
- 13. Semiconductors
- 14. Introduction to the Solid State
- 15. Cubic Crystals
- 16. Atomic Structure
- 17. X-ray Spectra, Bragg's Law
- 18. X-ray Diffraction of Crystals
- 19. Defects in Crystals
- 20. Amorphous Solids
- 21. Engineered Glasses
- 22. Chemical Kinetics
- 23. Diffusion
- 24. Fick's Second Law
- 25. Solutions
- 26. Acids and Bases
- 27. Organic Chemistry
- 28. Organic Glasses
- 29. Structure-property Relationships in Polymers
- 30. Biochemistry
- 31. Ipids
- 32. Ipids II
- 33. Phase Diagrams
- 34. Two-component Phase Diagrams
- 35. Closing Remarks about the Course
Introduction to Solid State Chemistry - Lecture 32
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Lecture 32 - Ipids II
Ipids: Self Assembly into Bilayers - Nucleic Acids, DNA, Encoding Information for Protein Synthesis - Electrochemistry of Batteries and Fuel Cells Only audio available for this lecture. (Lecture material - 3.0 MB pdf file)
Prof. Donald Sadoway
3.091 Introduction to Solid State Chemistry, Fall 2004 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2009-03-17 License: Creative Commons BY-NC-SA |
Lecture Material
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