| Course title | |||||
| 物性化学 [Materials Chemistry] | |||||
| Course category | technology speciality courses,ets. | Requirement | Credit | 2 | |
| Department | Year | 3~4 | Semester | 1st | |
| Course type | 1st | Course code | 023205 | ||
| Instructor(s) | |||||
| 前田 和之 [MAEDA Kazuyuki] | |||||
| Facility affiliation | Faculty of Engineering | Office | Email address | ||
| Course description |
| Physical properties of solid-state materials are governed by many factors such as bulk compositions, crystal structure and chemicals, surface structures, particle sizes, morphologies, and defects. This course deals with crystal structures of inorganic solids, which are important to understand physical properties of inorganic solids, and explain various physical and chemical properties of inorganic solids based on concrete examples of representative materials. |
| Expected Learning |
|
The standard of the course is to understand crystal structures of representative inorganic solids and fundamental physical and chemical properties of inorganic solids mainly based on their crystal and defect structures. Corresponding criteria in the Diploma Policy: See the Curriculum maps. |
| Course schedule |
|
Week 1: Course guidance Fundamentals of crystal structure 1 (close packing structures, symmetry, unit cell) - Chapter 1 Week 2: Fundamentals of crystal structure 2 (types of crystals, crystal structure, use of crystal structure visualization softwares) - Chapter 1 Week 3: Representative crystal structures 1 (AB type and AB2 type structures) - Chap. 1 Week 4: Representative crystal structures 2 (structures of important oxides) - Chap. 1 Week 5: Imperfect structures (defects, amorphous solids)- Chap. 2 Week 6: Electronic structures (molecular orbital theory, band theory) - Chap. 3 Week 7: Electric properties 1 (electronic conductivity, superconductivity) - Chap. 4 Week 8: Electric properties 2 (ionic conductivity) - Chap. 4 Week 9: Electric properties 3 (electronic properties) - Chap. 5 Week 10: Magnetic properties 1 (behavior of materials in magnetic field) - Chap. 6 Week 11: Magnetic properties 2 (representative magnetic materials and their crystal structures) - Chap. 6 Week 12: Optical properties 1 refraction, (reflection, absorption and emission of light, phosphors) - Chap. 7 Week 13: Optical properties 2 (laser, other optical properties) - Chap. 7 Week 14: Properties of low-dimensional materials and nanomaterials (intercalation, surface properties) - Chap. 10, 14 & handout Week 15: Summary of the course: Term-end exam |
| Prerequisites |
|
Students entering this class are desired to have learned Inorganic Chemistry I & II, Physical Chemistry III or their equivalents. Furthermore, fundamental understanding of Electromagnetics are also preferable. Use of internet and moodle is necessary in order to display crystal structures using a computer software. In addition to 30 hours that students spend in the class, students are recommended to prepare for and review the lectures, spending the standard amount of time as specified by the University and using the lecture handouts as well as the references specified below. |
| Required Text(s) and Materials |
|
村石治人 基礎固体化学(三共出版)ISBN 4-7827-0417-8 (H. Muraishi, "Basic Solid State Chemistry", Sankyo Publishing. Textbook in Japanese) |
| References |
|
A. R. West, "Basic Solid State Chemistry", 2nd ed., Wiley. L. E. Smart and E. A. Moore, "Solid State Chemistry: An Introduction", 4th ed., CRC Press. P. Atkins and J. de Paula, "Physical Chemistry", 9th ed., Oxford University Press. |
| Assessment/Grading |
| Attitude (10%), midterm report (20%), and term-end exam (70%). Details on the midterm report will be explained during the course. Students are allowed to bring a handwritten double sided A4 material at the term-end exam . |
| Message from instructor(s) |
| Other courses related to organic chemistry and inorganic chemistry mainly deal with molecular compounds, and their basic reactivities and physical properties may be predicted according to their molecular structures. Meanwhile, it is known that inorganic solids, even very fundamental materials such as silica and alumina, often have various different structures, resulting in considerably different physical properties. Even the same crystal structures may show different physical properties resulting from their defect structure and nanostructure. This course starts from understanding crystal structures of inorganic solids and afterward presents factors governing various physical and chemical properties of inorganic solids. |
| Course keywords |
| inorganic materials, crystal structure, physical and chemical properties of solids |
| Office hours |
| Prof. Kazuyuki Maeda (Building 1: N413) Anytime |
| Remarks 1 |
| Remarks 2 |
| Related URL |
| See Moodle page of this course (in Japanese) |
| Lecture Language |
| Japanese |
| Language Subject |
| Last update |
| 3/22/2019 12:01:22 PM |