1 | Lecture-1- Introduction to Materials Chemistry | PDF unavailable |
2 | Lecture-2 Preparative routes: Conventional –Precursor technique I | PDF unavailable |
3 | Lecture 3 Preparative routes: Conventional – Precursor technique II | PDF unavailable |
4 | Lecture-4 Preparative routes: Un Conventional Soncochemistry technique II | PDF unavailable |
5 | Lecture 5 Preparative routes: Un Conventional – Soncochemistry technique II | PDF unavailable |
6 | Lecture 6: Preparative routes: Un Conventional -- Combustion technique | PDF unavailable |
7 | Lecture 7: Preparative routes: Un Conventional – Microwave technique | PDF unavailable |
8 | Lecture 8: Preparative routes: High Pressure -Hydrothermal Technique | PDF unavailable |
9 | Lecture 9: Preparative routes: Coventional Solid State Technique | PDF unavailable |
10 | Lecture 10: Molecular Beam Epitaxy: Monolayers to Multilayers | PDF unavailable |
11 | Lecture 11: Pulsed Laser Deposition: Oxide thin films | PDF unavailable |
12 | Lecture 12: Pulsed Electron Deposition: From oxides to polymeric films and devices | PDF unavailable |
13 | Lecture 13: Sputtering deposited thin films and applications | PDF unavailable |
14 | Lecture 14: Crystal growth-Single crystals. | PDF unavailable |
15 | Lecture 15: Applications of X-ray diffraction | PDF unavailable |
16 | Lecture 16: Applications of X-ray Photoelectron spectroscopy | PDF unavailable |
17 | Lecture 17: Applications of X-ray Absorption spectroscopy | PDF unavailable |
18 | Lecture 18: Applications of Thermal analysis techniques | PDF unavailable |
19 | Lecture 19: Applications of Scanning Tunneling microscopy | PDF unavailable |
20 | Lecture 20: Applications of Electron Microscopy | PDF unavailable |
21 | Lecture 21: Case Study of ZnO | PDF unavailable |
22 | Lecture 22: Magnetic materials II | PDF unavailable |
23 | Lecture 23: Magnetic Materials II | PDF unavailable |
24 | Lecture 24: Magnetic Materials III & Related Phenomena | PDF unavailable |
25 | Lecture 25: Shape Memory Materials | PDF unavailable |
26 | Lecture 26: Spintronic Materials I Colossal Magentoresistive Oxides | PDF unavailable |
27 | Lecture 27: Spintronic Materials II Giant Magnetoresistive Materials | PDF unavailable |
28 | Lecture 28: Spintronic Materials III Tunelling Magnetoresistive Materials | PDF unavailable |
29 | Lecture 29: Spintronic Materials IV Dilute Magnetic Semicondcutors | PDF unavailable |
30 | Lecture 30: High Tc Superconductors | PDF unavailable |
31 | Lecture 31: he New Carbon family I- Fullerenes and Nanotubes | PDF unavailable |
32 | Lecture 32: The New Carbon family II- Graphene | PDF unavailable |
33 | Lecture 33: Optoelectronic Materials I- OLEDS | PDF unavailable |
34 | Lecture 34: Optoelectronic Materials I I- OLEDS | PDF unavailable |
35 | Lecture 35: Inorganic Phosphors I | PDF unavailable |
36 | Lecture 36: Inorganic Phosphors II | PDF unavailable |
37 | Lecture 37: Phosphor Materials | PDF unavailable |
38 | Lecture 38: Solar Cells | PDF unavailable |
39 | Lecture 39 : Interview with C N R Rao and Interview with E C Subba Rao | PDF unavailable |
40 | Lecture 40 : Perceptions & Projections | PDF unavailable |