機能性材料学特論

科目名
Course Title
授業コード 単位数 配当年次 開講期間
Term
科目分類 ナンバリング
コード
曜日
コマ
教室 担当教員氏名
Instructor
機能性材料学特論
Advanced Materials for Novel Functions
P122710001 2 1 後期授業 専門科目 TSMAE5A21-M1 火3 B5-1B38,オンライン(中百舌鳥キャンパス) 中平 敦
牧浦 理恵

オフィスアワー

中平敦, Tuesday, 14:45-15:20, B5-2A-16, 牧浦理恵 Tuesday, 14:45-15:20, C10-311
前もってe-mailで連絡が望ましい。質問はe-mailにて受け付けます。

授業目標

Various properties (mechanical, electric, catalytic and biomedical properties) are dependent on their microstructure and surface structures for a lot of materials (ceramics, metals, polymers and novel nanomaterials). The purpose in this lecture is to understand the relationship between the microstructure (grain-boundary and interface, etc) and surface structure (defects, etc) and various properties and to learn the details of various synthetic processing and evaluation characterization techniques for ceramics and novel nanomaterial. In addition, some recent basic and new topics of hybrid nanomaterials and porous materials such as metal organic frameworks (MOF), will be introduced and discussed for well-understanding.

教科書

Printed reference materials (pdf file) will be given.

参考書

Inorganic chemistry-modern approach:K. Hirao et al, Tokyo-Kagaku-Dojin
ISBN4-8079-0551-1

授業時間外の学習(準備学習等について)

Preparation about the applicable lesson planning items before attending this lecture is needed. After class, the contents and relevant matters in reference books etc are needed for their understanding.

授業の概要

This class will be given by Prof. Nakahira and Prof. Makiura .
Ceramics science and engineering such as functional ceramics and engineering ceramics on the first half class will be taught by Prof. Nakahira and complex chemistry such as metal organic frameworks (MOF) on the later class by Prof. Makiura.

前半の授業は、セラミックス化学と工学の授業(中平)
後半の授業は、MOFを中心とした錯体化学の授業(牧浦)

授業計画

1. Guidance, 2. Introduction, 3. Ceramics processing and properties, 4. Ceramics processing and properties, 5. Composites, 6. Topics: novel ceramics and materials, 7. Topics: novel ceramics applications, 8. Topics: novel processing,
9. Synthesis of hybrid nanomaterials, 10.Characterization of hybrid nanomaterials, 11.Properties of hybrid nanomaterials, 12. Synthesis of MOF, 13. Characterization of MOF
14. Topics and presentation, 15. Summary

Discussion and presentation on new topics will be demanded on class.

成績評価

Grade assessment based on the achievement level of the class goal is performed. We judge comprehensively with some reports and presentations. In order to pass, it is necessary to submit all reports and present the assignments.
授業での課題などのレポートと発表で総合的に判断する。合格のためにはすべてのレポートを提出することと課題発表を行うことが必要である。