Functional Material Engineering

Course title

1M520000

Course content

Functional materials develop advanced functions by utilizing their mechanical, chemical, optical, electrical, and other properties. Therefore, it is expected to be applied to various applications such as realization of IC, MEMS, memory devices and optical devices.
In this lesson, we focus on dielectric materials and magnetic material and explain the basic theory of various functions of these materials.

Purpose of class

Learn the ability to apply functional materials.

Goals and objectives

will comprehend about functional materials.
will explain about functional materials.
will consider about functional materials application.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1．	What is functional material.	Review on the contents of physics, chemistry, electronic properties and so on.	90minutes
1．	What is functional material.	Review on lecture contents.	100minutes
2．	Fundamental of ferroelectric.	Read related documentation.	90minutes
2．	Fundamental of ferroelectric.	Review on lecture contents.	100minutes
3．	Ferroelectric material and device design.	Read related documentation.	90minutes
3．	Ferroelectric material and device design.	Review on lecture contents.	100minutes
4．	Current trend in semiconductor memory.	Read related documentation.	90minutes
4．	Current trend in semiconductor memory.	Review on lecture contents.	100minutes
5．	Forecast on future semiconductor memory.	Read related documentation.	90minutes
5．	Forecast on future semiconductor memory.	Review on lecture contents.	100minutes
6．	Pyroelectric material and infrared device.	Read related documentation.	90minutes
6．	Pyroelectric material and infrared device.	Review on lecture contents.	100minutes
7．	Basics of piezoelectric materials.	Read related documentation.	90minutes
7．	Basics of piezoelectric materials.	Review on lecture contents.	100minutes
8．	Piezoelectric device.	Read related documentation.	90minutes
8．	Piezoelectric device.	Review on lecture contents.	100minutes
9．	Electrooptic effect and related material.	Read related documentation.	90minutes
9．	Electrooptic effect and related material.	Review on lecture contents.	100minutes
10．	PTC effect and composite material.	Read related documentation.	90minutes
10．	PTC effect and composite material.	Review on lecture contents.	100minutes
11．	Spintronics (1) Basics of magnetic materials.	Read related documentation.	90minutes
11．	Spintronics (1) Basics of magnetic materials.	Review on lecture contents.	100minutes
12．	Spintronics (2) Magnetic semiconductor.	Read related documentation.	90minutes
12．	Spintronics (2) Magnetic semiconductor.	Review on lecture contents.	100minutes
13．	Spintronics (3) Magnetoresistive effect.	Read related documentation.	90minutes
13．	Spintronics (3) Magnetoresistive effect.	Review on lecture contents.	100minutes
14．	Spintronics (3) Nonvolatile memory.	Read related documentation.	90minutes
14．	Spintronics (3) Nonvolatile memory.	Review on lecture contents.	100minutes
Total.	-	-	2660minutes

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Report	Total.
1.	40%	40%
2.	40%	40%
3.	20%	20%
Total.	100%	-

Evaluation method and criteria

Report : 100%．

Textbooks and reference materials

Instructions on the reference book as appropriate.

Prerequisites

Studied “Introduction to Electronic Materials” and “Introduction to Solid State Physics”.

Office hours and How to contact professors for questions

13:00~13:30 on Friday at 09H25 (Toyosu).

Relation to the environment

Environment-related course (10%)

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge

Active-learning course

N/A

Last modified : Wed Oct 17 07:08:12 JST 2018