MIT OCW - 3.091 Introduction to Solid State Chemistry

MIT OCW - 3.091 Introduction to Solid State Chemistry (Fall 2010). This consists of 35 video lectures given by Prof. Donald Sadoway, introducing solid state chemistry with an emphasis on solid-state materials and their application to engineering systems. This 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)


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


Web.. 3.091 Introduction to Solid State Chemistry (Fall 2010)
Instructors: Prof. Donald Sadoway. Lecture Slides. Exams and Solutions. Subtitles/Transcript. This course introduces solid state chemistry with an emphasis on solid-state materials and their application to engineering systems.
ocw.mit.edu/courses/materials-science-and-engineering/3-091sc-introduction-to-solid-state-chemistry-fall-2010/