Electronic and Optical Properties of Materials Form Course : Bachelor of Technology Views: 1,233 Click to rate this Subject! [Total: 7 Average: 4]Dr. Anju Dixit All Classes MSE-S303 Lecture 19 Thermal Conductivity MSE-S303 Lecture 20 Wiedemann-Franz law MSE-S303 Lecture 1 Introduction to Semiconductors-Intrinsic and Extrinsic MSE-S303 Lecture 2FERMI LEVEL AND EFFECT OF TEMPERATURE ON INTRINSIC SC MSE-S303 Lecture 3 Fermi level and Effect of temperature on Extrinsic Semiconductors MSE-S303 Lecture 4 Temperature affect on donor and acceptor ionization MSE-S303 Lecture 5 Electron and Hole concentration at equilibrium MSE-S303 Lecture 6 Density of States, Fermi-Dirac Function and Charge carriers MSE-S303 Lecture 8 Effect of electric field on electron and holes and Effective Mass MSE-S303 Lecture 9 E-K relationship MSE-S303 Lecture 10 Direct and Indirect Band Gap MSE-S303 Lecture 11 Degenerate and Non-Degenerate Semiconductors MSE-S303 Lecture 12 Conductivity of a Semiconductor MSE-S303 Lecture 13 PN Junction MSE-S303 Lecture 14 Equilibrium at PN junction MSE-S303 Lecture 15 Hall Effect in Semiconductors MSE-S303 Lecture 16 Light Emitting Diode (LED) MSE-S303 Lecture 17 Magnetoresistance MSE-S303 Lecture 18 Band-gap engineering MSE-S303 Lecture 22 Thermo-Power MSE-S303 Lecture 23 Ionic Conduction MSE-S303 Lecture 24 Ionic Conduction and Diffusion Mechanism MSE-S303 Lecture 25 Diffusion MSE-S303 Lecture 26 Conduction in Glasses MSE-S303 Lecture 27 Conduction in Polymers MSE-S303 Lecture 28 Piezoelectricity