Lectures - SYLLABUS MSE 2620: ELECTRONIC MATERIALS FOR THE...

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SYLLABUS MSE 2620: ELECTRONIC MATERIALS FOR THE INFORMATION AGE Unit 1: Introduction to basic Materials Science concepts Lecture 1: Kasap, paragraphs 1.1-1.3 Atomic structure (Bohr model, quantum numbers) Bonding in solids Lecture 2: Kasap, paragraphs 1.8-1.9, 1.13 The crystalline state Defects Lecture 3: Kasap, paragraphs 1.10-1.11, 1.4-1.5 Single crystal growth Glasses and amorphous semiconductors Kinetic theory of gases: average energy per molecule Maxwell’s principle of equipartition of energy Distribution of particle velocities and energies Thermal fluctuations and noise (Qualitatively only) Lecture 4: Kasap, paragraphs 1.7, 1.12 Thermally activated processes, diffusion Solid solutions and isomorphous alloys Cu-Ni phase diagram Lever rule Zone refining Binary eutectic phase diagrams Pb-Sn solders Lecture 5: Silicon Run (I), (II) videotapes – available in Engineering library Overview of Si fabrication processes Overview of electronic packaging ********* Unit 2: Electrical properties and applications of metals
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This note was uploaded on 09/30/2009 for the course MSE 2620 taught by Professor Malliaras during the Spring '09 term at Cornell University (Engineering School).

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Lectures - SYLLABUS MSE 2620: ELECTRONIC MATERIALS FOR THE...

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