- Lecturer
- Kanno Ryoji
- Place
- Thr7-8(G113)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 95048
- Syllabus updated
- 2010/9/20
- Lecture notes updated
- 2010/9/20
- Semester
- Fall Semester
Outline of lecture
1.辟。讖滓ゥ溯ス譚先侭蛹門ュヲ縺ィ縺ッ
2.邨先匕讒矩
3.蝗コ菴謎クュ縺ョ蛹門ュヲ邨仙粋
4.谺髯・シ碁撼蛹門ュヲ荳。隲也オ謌
5.逶ク蝗ウ縺ョ隕区婿
6.髮サ豌嶺シ晏ー
7.逎∵ァ
8.蝗コ菴馴崕豌怜喧蟄ヲ
Inorganic materials chemistry is concerned with the synthesis, structure, properties and applications of inorganic solid materials. The study of structure-property relations is very fruitful area and one with immense possibilities for the development of new materials or materials
with unusual combination of properties.
Schedule:
1.What is materials chemistry
2.Crystal structure
3.Chemical bonding in solids
4.Defect, nonstoichiometry
5.Interpretation of phase transition
6.Ionic and electronic conductivity
7.Magnetic properties
8.Solid state electrochemistry
Purpose of lecture
Inorganic materials chemistry is concerned with the synthesis, structure, properties and applications of inorganic solid materials. The study of structure-property relations is very fruitful area and one with immence possibilities for the development of new materials or materials with unusual combination of properties.
Plan of lecture
1.What is materials chemistry
2.Crystal structure
3.Chemical bonding in solids
4.Defect, nonstoichiometry
5.Interpretation of phase transion
6.Ionic and electronic conductivity
7.Magnetic properties
8.Solids state electrochemistry
Textbook and reference
蜿り譖ク遲
Basic Solid State Chemistry, A. R. West (Kodansha)
Chemistry of Fine Inorganic Materials, N. Nakanishi (Sankyo)
Inorganic Chemistry for Graduate School, S. Iwamoto (Kodansha)
Evaluation
Evaluation will be based on the examination and report at the end of the semester. Class participation will be optionally considered.
Comments from lecturer
Variation of solid properties is quite interesting. We hope many students to experience exiting procedure to create novel solid-state materials.
