1. Introduction to Advanced Ceramics
2. Introduction to Advanced Ceramics 2
3. Crystal Structure
4. Crystal Structure 2
5. Crystal Structure 3
6. Crystal Structure 4
7. Defects in Crystalline Solids
8. Defects in Crystalline Solids 2
9. Dislocation
10. Two and Three Dimensional Defects
11. Electrical Conduction in Ceramics
12. Electrical Conduction in Ceramics 2
13. Electrical Conduction in Ceramics 3
14. Electrical Conduction in Ceramics 4
15. Electrical Conduction in Ceramics 5
16. Electrical Conduction in Ceramics 6
17. Electrical Phenomenon in Insulators
18. Electrical Phenomenon in Insulators 2
19. Ferroelectric, Piezoelectric and Pyroelectric Ceramics
20. Ferroelectric, Piezoelectric and Pyroelectric Ceramics 2
21. Ferroelectric, Piezoelectric and Pyroelectric Ceramics 3
22. Ferroelectric, Piezoelectric and Pyroelectric Ceramics 4
23. Relaxor Ferroelectric
24. Superconductivity
25. Superconductivity 2
26. Ceramic Gas Sensor
27. Ceramic Gas Sensor 2
28. Solid Oxide Fuel Cell
29. Solid Oxide Fuel Cell 2
30. Solid Oxide Fuel Cell 3
31. Hydrogen Generation through MIEC Reactor
32. Lithium Ion Battery
33. Lithium Ion Battery 2
34. Magnetic Ceramics
35. Magnetic Ceramics 2
36. Magnetic Ceramics 3
37. Magnetic Ceramics 4
38. Sintering of Ceramics
39. Sintering of Ceramics 2
40. Sintering of Ceramics 3
41. Sintering of Ceramics 4
42. Mechanical Properties of Ceramic Materials
43. Mechanical Properties of Ceramic Materials 2
44. Mechanical Properties of Ceramic Materials 3
45. Mechanical Properties of Ceramic Materials 4
46. Structural Ceramics Materials
47. Bioceramics

"Advanced Ceramics" constitute a group of materials other than the clay minerals based "traditional ceramics" and are one of the fastest growing groups of materials particularly for advanced technology applications replacing, in many cases, conventional metals and alloys. While "traditional ceramics" are based primarily on naturally occurring raw materials, the "advanced ceramics" use mostly synthetic or specially prepared raw materials. Therefore, preparation of synthetic raw material constitutes an important part of this course.

Consolidation of the powdery raw materials into desirable and in many cases complex shapes requires understanding the basic principles of different techniques of ceramic processing and fabrication.
Advanced ceramic materials are used not only in the bulk shapes but also in the form of thick or thin films as well as in single crystals. In addition, ceramics are also used in the fiber form.

From the chemistry point of view the materials cover a very wide spectrum of compounds e.g. oxides, carbides, nitrides, oxy-nitrides, silicides as well as their combinations. Their properties and consequently the area of applications vary quite significantly.

Many new and exotic properties are possible to be developed in these materials and therefore, one can think of several exotic applications. Advanced ceramics are known for their unusual electrical, magnetic, mechanical, optical and eletro-optic properties.

Their importance lies in their extra-ordinary strength at high temperatures, much better abrasion and tribological properties, insulating, semi-conducting, conducting and even superconducting properties, dielectric and piezoelectric properties, soft and hard magnetic properties. Besides one can make ionically conducting ceramics for electrochemical applications.

Ceramics can be fabricated with controlled pores size and porosity particularly for different types of separation technologies. It is also possible to develop either bio-inert or bio-active ceramics for use as bio-medical implants.

Advanced ceramic products are commonly used in a variety of engineering industries, microelectronics, thermal engineering, sensor and actuator technology, environmental engineering, energy technology, water purification technology, biomedical engineering etc. covering different sectors like atomic energy, defense, space and civilian applications.
Exotic ceramics such as functionally graded, smart/ Intelligent, bio-mimetic and nano- ceramics are also becoming important for different applications. All these aspects will be covered in details.