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- Common courses
- Liberal arts and basic science courses
- Academic unit or major
- Graduate major in Chemical Science and Engineering
- Instructor(s)
- Ohtomo Akira
- Class Format
- Lecture
- Media-enhanced courses
- Day/Period(Room No.)
- Mon3-4(H104)
- Group
- -
- Course number
- CAP.A461
- Credits
- 1
- Academic year
- 2019
- Offered quarter
- 1Q
- Syllabus updated
- 2019/3/18
- Lecture notes updated
- -
- Language used
- English
- Access Index
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Course description and aims
[Summary of the course] In this course, the electronic properties of solids will be explained in association with nature of the chemical bonding and crystallographically derived periodic potential. The topics include the electric conductivity and electronic structures of metals, semiconductors, insulators, superconductors, and quantum confined structures.
[Aim of the course] Based on the history that solid-state chemistry and solid-state physics have been complementarily developed, themes in each class are designed so that students understand close relations in the knowledges of solid-state chemistry and solid-state physics. In the beginning of each class, for example, explanations of a principle of chemistry are given, followed by a brief exposition of the related theory in the viewpoint of physics. Modern chemistry has been developed by discovery of a useful compound followed by synthesis and design of related compounds based on the knowledge of the physical properties. Meanwhile, new physical properties and functions are often found from among the codified group of compounds in a certain principle. From this point of view, this course encourages students to discuss and do exercises about problems.
Student learning outcomes
At the end of this course, students will be able to:
1) explain the electronic properties of solids in association with nature of the chemical bonding and crystallographically derived periodic potential.
2) explain the principles that govern the electronic properties of solids based on molecular orbital theory, free-electron theory, and band theory.
Keywords
Energy band, free-electron theory, density of state function, reciprocal lattice, systematic absences, x-ray diffraction, Hall effect, metal-insulator transition, Mott insulator, quantum well, high-Tc superconducting cuprate
Competencies that will be developed
| ✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Class flow
This course will proceed in the following order: (1) chemical bonding, (2) band theory, (3) crystallography, and (4) electric conduction. In the last day, exercise problems and interpretation of the answers will be given to assess the students’ level of understanding.
Course schedule/Required learning
| Course schedule | Required learning | |
|---|---|---|
| Class 1 | General introduction to solid-state chemistry | Explain the course objectives. |
| Class 2 | Properties of atoms and chemical bonding | Explain roles of covalent bonding and ionic bonding in a chemical bond. |
| Class 3 | Band theory | Explain the band theory based on free-electron theory. |
| Class 4 | Crystallography and crystal structures | Explain a band dispersion in the reciprocal space and/or k-space. |
| Class 5 | Electronic conductivity in metals and semiconductors | Explain methods of the electrical conductivity measurement and their principles. |
| Class 6 | Spectroscopic characterizations of electronic structures | Explain features of the electronic spectroscopies and their principles. |
| Class 7 | Superconductors and quantum structures | Distinguish types of superconductors and quantum structures in terms of structures and physical properties. |
| Class 8 | Exercise problems to assess the students’ level of understanding and interpretation of the answers | Use the exercise problems to better understand the topics covered, and evaluate one’s own progress. |
Textbook(s)
R. J. D. Tilley, "Understanding Solids: The Science of Materials", 2nd Ed., Wiley; ISBN: 978-1-118-42328-8.
Reference books, course materials, etc.
A. R. West, "Basic Solid State Chemistry", 2nd Ed., Wiley; ISBN: 978-0471987567.
The other course materials are provided during class and uploaded on OCW-i.
Assessment criteria and methods
Students will be assessed on their achievements of learning outcomes based on final exam (60%), the quality of writing reports (30%), and exercise problems (10%).
Related courses
- CAP.A401 : Scope of Chemical Science and Engineering IA
- CAP.A462 : Advanced Solid State Chemistry II
- CAP.A443 : Advanced Solid-state Physical Chemistry I
- CAP.A444 : Advanced Solid-state Physical Chemistry II
Prerequisites (i.e., required knowledge, skills, courses, etc.)
No prerequisites.
Contact information (e-mail and phone) Notice : Please replace from "[at]" to "@"(half-width character).
Akira Ohtomo: aohtomo[at]apc.titech.ac.jp
Office hours
Contact by e-mail in advance to schedule an appointment.
Other
The students are encouraged to study this course and Advanced Solid-state Physical Chemistry I (1Q; CAP.A443) for complementary learning.
