This course deals with basic properties of conductor, resistor, semiconductor, magnetic and dielectric materials.
You are expected to acquire the basic electrical functions and technologies of typical electronic materials.
- Be able to explain the kinds of conductor materials, their physical properties, and their applications.
- Be able to explain the kinds of resistor materials, their physical properties, and their applications.
- Be able to explain the kinds of semiconductor materials, their physical properties, and their applications.
- Be able to explain the kinds of magnetic materials, their physical properties, and their applications.
- Be able to explain the kinds of dielectric materials, their physical properties, and their applications.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Guidance & Introduction (1): Definition and development of materials | No need preparation | 0minutes |
| 2. | ・Introduction (2): Typical Characterization Techniques for Electronic Materials ・Classical Theory of Electrical Conduction and Conducting Materials (1): Classical Theory of Electrical Conduction conducting materials |
Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 3. | Classical Theory of Electrical Conduction and Conducting Materials (2): Materials for Electricity Transmission and Materials for Electrical Resistors, and Heating Elements | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 4. | Electron Energy in Solids, and Electron Emission | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 5. | Semiconductor, Properties and Materials (1): Introduction, Band structure, and pn junctions and Their Typical Characteristics | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 6. | Semiconductor, Properties and Materials (2): Doping processes, and Metallization | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 7. | Midterm examination (In Report case, Semiconductor, Properties and Materials (3): Oxidation of Silicon and Gallium Arsenic, Lithography and Etching) |
Prepare the midterm examination or the midterm report. Read the corresponding part in the textbook. |
210minutes |
| 8. | Magnetic Properties and Materials (1): Introduction and Fundamentals | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 9. | Magnetic Properties and Materials (2):Soft Magnetic Materials | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 10. | Magnetic Properties and Materials (3): Hard Magnetic Materials | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 11. | Dielectrics (1): Introduction and Fundamentals, Dielectric Materials, and Capacitors | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 12. | Dielectrics (2): Ferroelectric Materials, Piezoelectric Materials, and Pyroelectric Materials | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 13. | Optical Properties and Materials (1): Introduction and Emission of Continuous and Characteristic Radiation, Applications of Photon Emission, and Laser and Laser Materials | Review last week’s lesson. Read the corresponding part in the textbook. |
210minutes |
| 14. | Final examination (In Report case: Optical Properties and Materials (2): Thermal Photoemission, Interaction of Photons with Materials, Reflection Optical Fibers and Photonic Systems) |
Prepare the final examination or the final report. Read the corresponding part in the textbook. |
210minutes |
| Total. | - | - | 2730minutes |
| D | Total. | |
|---|---|---|
| 1. | 20% | 20% |
| 2. | 20% | 20% |
| 3. | 20% | 20% |
| 4. | 20% | 20% |
| 5. | 20% | 20% |
| Total. | 100% | - |
Evaluation method:
A 6th absence may constitute a failing grade in this course.
Midterm examination (or Midterm report) 50%, and final examination (or Final report) 50%. You must score at least 60 points or higher out of 100 to pass.
Criteria:
If you able to answer the chapter end questions with reference to the textbook, you will get 80 points out of 100 to pass.
A 6th absence may constitute a failing grade in this course.
Midterm examination (or Midterm report) 50%, and final examination (or Final report) 50%. You must score at least 60 points or higher out of 100 to pass.
Criteria:
If you able to answer the chapter end questions with reference to the textbook, you will get 80 points out of 100 to pass.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in outside of the class (ScombZ, mail, etc.) |
Course materials will be distributed in class. (Wei Gao, Zhengwei Li, Nigel Sammes, “An Instruction to Electronic Materials
for Engineers 2nd Edition” (World Scientific, 2011) )
- 17:00-18:00 on Monday @ #09L25 Research bldg. in TOYOSU campus.
You can ask or contact me by e-mail in advance.
email: ishkwh@sic.shibaura-it.ac.jp
- Non-social and professional independence development course
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A |
Last modified : Sat Sep 09 05:39:00 JST 2023