MIT 3.091 Introduction to Solid State Chemistry, Fall 2004

MIT 3.091 Introduction to Solid State Chemistry, Fall 2004

This course explores the basic principles of chemistry and their application to engineering systems. It deals with the relationship between electronic structure, chemical bonding, and atomic order. It also investigates the characterization of atomic arrangements in crystalline and amorphous solids: metals, ceramics, semiconductors, and polymers (including proteins). Topics covered include organic chemistry, solution chemistry, acid-base equilibria, electrochemistry, biochemistry, chemical kinetics, diffusion, and phase diagrams. Examples are drawn from industrial practice (including the environmental impact of chemical processes), from energy generation and storage, e.g., batteries and fuel cells, and from emerging technologies, e.g., photonic and biomedical devices. View the complete course at: http://ocw.mit.edu/3-091F04 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

Prof. Donald Sadoway introduces MIT 3.091 Introduction to Solid State Chemistry 

Vision Statement, Administrative Details

Course Introduction

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Lecture 1: Vision Statement, Administrative Details

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Lecture 2: Classification Schemes for the Elements

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Lecture 3: Rutherford Model of the Atom, Bohr Model of Hydrogen

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Lecture 4: Atomic Spectra of Hydrogen

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Lecture 5: The Shell Model and Multi-electron Atoms

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Lecture 6: De Broglie, Heisenberg, and Schrödinger

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Lecture 7: Octet Stability by Electron Transfer: Ionic Bonding

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Lecture 8: Born-Haber Cycle

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Lecture 9: Electronegativity, Partial Charge, Polar Bonds and Polar Molecules

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Lecture 10: LCAO MO, Energy Level Diagrams for H2, He2, Li2

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Lecture 11: The Shapes of Molecules, Electron Domain Theory, Secondary Bonding

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Lecture 12: Metallic Bonding, Band Theory of Solids

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Lecture 13: Intrinsic and Extrinsic Semiconductors, Doping, Compound Semiconductors

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Lecture 14: Introduction to the Solid State

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Lecture 15: Properties of Cubic Crystals: Simple Cubic, Face-centered Cubic

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Lecture 16: Characterization of Atomic Structure

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Lecture 17: X-ray Spectra, Bragg's Law

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Lecture 18: X-ray Diffraction of Crystals

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Lecture 19: Defects in Crystals

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Lecture 20: Amorphous Solids, Glass Formation, Inorganic Glasses

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Lecture 21: Engineered Glasses

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Lecture 22: Chemical Kinetics

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Lecture 23: Diffusion

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Lecture 24: Fick's Second Law (FSL) and Transient-state Diffusion

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Lecture 25: Solutions

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Lecture 26: Acids and Bases

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Lecture 27: Organic Chemistry

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Lecture 28: Organic Glasses - Polymers

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Lecture 29: Structure-property Relationships in Polymers, Crystalline Polymers

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Lecture 30: Biochemistry

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Lecture 31: Protein Structure

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Lecture 32: Lipids

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Lecture 33: Phase Diagrams - Basic Definitions

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Lecture 34: Two-component Phase Diagrams

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Lecture 35: Wrap-up

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