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3.091 Introduction to Solid State Chemistry

3.091 Introduction to Solid State Chemistry (Fall 2010, MIT OCW). Taught by Professor Donald Sadoway, this course introduces solid state chemistry with an emphasis on solid-state materials and their application to engineering systems. The course begins with an exploration of the fundamental relationship between electronic structure, chemical bonding, and atomic order, then proceeds 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). (from ocw.mit.edu)

Lecture 31 - Biochemistry: Protein Structure


References
31. Biochemistry: Protein Structure
Session Overview. Readings. Resources: Lecture Slides (PDF). Lecture Summary. Homework: Problems and Solutions.

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Structure of the Atom
Lecture 01 - Introduction to Solid State Chemistry
Lecture 02 - The Periodic Table
Lecture 03 - Atomic Models: Rutherford and Bohr
Lecture 04 - Matter/Energy Interactions: Atomic Spectra
Lecture 05 - Electron Shell Model and Quantum Numbers
Lecture 06 - Particle-Wave Duality
Lecture 07 - The Aufbau Principle; Photoelectron Spectroscopy
Bonding and Molecules
Lecture 08 - Ionic Crystals; Born-Haber Cycle
Lecture 09 - Drawing Lewis Structures
Lecture 10 - Hybridized and Molecular Orbitals; Paramagnetism
Lecture 11 - The Shapes of Molecules
Lecture 12 - Intermolecular Forces
Electronic Materials
Lecture 13 - Band Theory of Solids
Lecture 14 - Semiconductors
Crystalline Materials
Lecture 15 - Introduction to Crystallography
Lecture 16 - Crystallographic Notation and X-Rays
Lecture 17 - X-Ray Emission and Absorption
Lecture 18 - X-Ray Diffraction Techniques
Lecture 19 - Point and Line Defects
Lecture 20 - Line, Interface and Bulk Defects
Amorphous Materials
Lecture 21 - Introduction to Glasses
Lecture 22 - Engineering Glass Properties; Introduction to Kinetics
Reactions and Kinetics
Lecture 23 - Reaction Rates
Lecture 24 - Diffusion
Aqueous Solutions
Lecture 25 - Introduction to Aqueous Solutions
Lecture 26 - Acids and Bases
Organic Materials
Lecture 27 - Introduction to Organic Chemistry
Lecture 28 - Polymers: Structure and Composition
Lecture 29 - Polymers: Synthesis, Properties and Applications
Lecture 30 - Biochemistry: Amino Acids
Lecture 31 - Biochemistry: Protein Structure
Lecture 32 - Biochemistry: Lipids, Nucleic Acids and DNA
Solid Solutions
Lecture 33 - Unary Phase Diagrams
Lecture 34 - Binary Phase Diagrams: Complete Solubility
Lecture 35 - Binary Phase Diagrams: Limited Solubility