Modules / Lectures
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Module NameDownloadDescriptionDownload Size
Electronic Structure of MaterialsOptoelectronic Materials and DevicesOptoelectronic Materials and Devices135 kb

Sl.No Chapter Name English
1Lecture 1: Conductivity of materials, Drude’s theory and its failuresPDF unavailable
2Lecture 2 : Free electron theoryPDF unavailable
3Lecture 3: Free electron theoryPDF unavailable
4Lecture 4: Crystal structure, Reciprocal lattice IPDF unavailable
5Lecture 5: Reciprocal lattice II, Brillouin zone and Bragg’s diffraction conditionPDF unavailable
6Lecture 6: Electrons in a crystal, Bloch’s electronPDF unavailable
7Lecture 7: Free electron band diagrams in an empty latticePDF unavailable
8Lecture 8: Effect of periodic potential, Origin of band-gap through Kronig-Penny modelPDF unavailable
9Lecture 9: Electron dynamicsPDF unavailable
10Lecture 10: Conduction in relation to band diagramsPDF unavailable
11Lecture 11: Semiconductor E-k diagrams and their material propertiesPDF unavailable
12Lecture 12: Equilibrium carrier statistics in semiconductors: density of states, fermi function and population density in bandsPDF unavailable
13Lecture 13: Equilibrium carrier statistics in semiconductors: qualitative examination of carrier densities in conduction and valence bandsPDF unavailable
14Lecture 14: Equilibrium carrier statistics in semiconductors: quantitative examination of carrier densities in intrinsic semiconductorPDF unavailable
15Lecture 15: Doping in semiconductorsPDF unavailable
16Lecture 16: Equilibrium carrier statistics in semiconductors: complete ionization of dopant levelsPDF unavailable
17Lecture 17: Equilibrium carrier statistics in semiconductors: carrier freeze outPDF unavailable
18Lecture 18: Semiconductor junctions in band-diagramsPDF unavailable
19Lecture 19: Linear dielectric behaviorPDF unavailable
20Lecture 20: Non-linear dielectric behaviorPDF unavailable
21Lecture 21: Carrier recombination-generation-I: band-to-band transitionPDF unavailable
22Lecture 22: Carrier recombination-generation –II: Other mechanismsPDF unavailable
23Lecture 23: R-G statistics via R-G centersPDF unavailable
24Lecture 24: Optoelectronic materials and bandgap engineeringPDF unavailable
25Lecture 25: Optical properties of materialsPDF unavailable
26Lecture 26: Optical properties of single interfaces: Fresnal reflection coefficientsPDF unavailable
27Lecture 27: Optical Properties of two interfaces: thin film casePDF unavailable
28Lecture 28: DriftPDF unavailable
29Lecture 29: DiffusionPDF unavailable
30Lecture 30: Continuity EquationPDF unavailable
31Lecture 31: Resistor and diode (p-n junction)PDF unavailable
32Lecture 32: Fundamentals of p-n junctionPDF unavailable
33Lecture 33: Fundamentals of p-n junction contd.PDF unavailable
34Lecture 34: Solar cellsPDF unavailable
35Lecture 35: Microelectronics processingPDF unavailable
36Lecture 36: MOS capacitorPDF unavailable
37Lecture 37: Transistor PDF unavailable
38Lecture 38: Organic ElectronicsPDF unavailable
39Lecture 39: Organic Light Emitting DiodesPDF unavailable
40Lecture40: Organic Solar Cells and Organics Thin Film TransistorsPDF unavailable

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