[img]/images/default_cover.jpg[/img]
Category:
EducationLanguage:
EnglishKeywords:
intro solid state chemistryWritten by MIT OCW
35 Video Lectures along with Recitation Videos and course materials. Professor Donald Sadoway presentation of this course is relevant and informative, while he’s also maintaining your interests with his witty humors and well tailored suits.
Course Overview:
Introduction to Solid State Chemistry is a one-semester college course on the principles of chemistry. This unique and popular course satisfies MIT’s general chemistry degree requirement, with an emphasis on solid-state materials and their application to engineering systems. You’ll begin with an exploration of the fundamental relationship between electronic structure, chemical bonding, and atomic order, then proceed to the chemical properties of “aggregates of molecules,” including crystals, metals, glasses, semiconductors, solutions and acid-base equilibria, polymers, and biomaterials. Real-world examples are drawn from industrial practice (e.g. semiconductor manufacturing), energy generation and storage (e.g. automobile engines, lithium batteries), emerging technologies (e.g. photonic and biomedical devices), and the environmental impact of chemical processing (e.g. recycling glass, metal, and plastic).
Structure of the Atom
» 1. Introduction to Solid State Chemistry
» 2. The Periodic Table
» 3. Atomic Models: Rutherford & Bohr
» 4. Matter/Energy Interactions: Atomic Spectra
» 5. Electron Shell Model & Quantum Numbers
» 6. Particle-Wave Duality
» 7. The Aufbau Principle; Photoelectron Spectroscopy
» Self-Assessment
Bonding and Molecules
» 8. Ionic Crystals; Born-Haber Cycle
» 9. Drawing Lewis Structures
» 10. Hybridized & Molecular Orbitals; Paramagnetism
» 11. The Shapes of Molecules
» 12. Intermolecular Forces
» Self-Assessment
Electronic Materials
» 13. Band Theory of Solids
» 14. Semiconductors
» Self-Assessment
Crystalline Materials
» 15. Introduction to Crystallography
» 16. Crystallographic Notation & X-Rays
» 17. X-Ray Emission & Absorption
» 18. X-Ray Diffraction Techniques
» 19. Point & Line Defects
» 20. Line, Interface & Bulk Defects
» Self-Assessment
Amorphous Materials
» 21. Introduction to Glasses
» 22. Engineering Glass Properties (first part)
» Self-Assessment
Reactions and Kinetics
» 22. Introduction to Kinetics (second part)
» 23. Reaction Rates
» 24. Diffusion
» Self-Assessment
Aqueous Solutions
» 25. Introduction to Aqueous Solutions
» 26. Acids & Bases
» Self-Assessment
Organic Materials
» 27. Introduction to Organic Chemistry
» 28. Polymers: Structure & Composition
» 29. Polymers: Synthesis, Properties & Applications
» 30. Biochemistry: Amino Acids
» 31. Biochemistry: Protein Structure
» 32. Biochemistry: Lipids, Nucleic Acids & DNA
» Self-Assessment
Solid Solutions
» 33. Unary Phase Diagrams
» 34. Binary Phase Diagrams: Complete Solubility
» 35. Binary Phase Diagrams: Limited Solubility
» Self-Assessment
Final Exam
» Final Exam