学部・大学院区分
Undergraduate / Graduate
工・博前
時間割コード
Registration Code
2832721
科目区分【日本語】
Course Category
専門科目
科目区分【英語】
Course Category
Specialized Courses
科目名 【日本語】
Course Title
物質創製工学特別実験及び演習2
科目名 【英語】
Course Title
Advanced Experiments and Exercises on Materials Creation Engineering 2
コースナンバリングコード
Course Numbering Code
担当教員 【日本語】
Instructor
王 謙 ○
担当教員 【英語】
Instructor
WANG Qian ○
単位数
Credits
2
開講期・開講時間帯
Term / Day / Period
通年集中(春秋) その他 その他
Full-year course Intensive(Sp-Fa) Other Other
授業形態
Course style
実験及び演習
学科・専攻【日本語】
Department / Program
物質プロセス工学専攻
学科・専攻【英語】
Department / Program
Department of Materials Process Engineering
必修・選択【日本語】
Required / Selected
必修・選択【英語】
Required / Selected


授業の目的 【日本語】
Goals of the Course(JPN)
The purpose of this course is to provide a fundamental understanding of analytical chemistry principles and to demonstrate how these principles are applicable. Students will acquire fundamental tools and skills in chemical qualitative and quantitative procedures that can be applied in a variety of fields during this course.

At the end of the course, the students are expected to:
• Understand the fundamental concepts of photocatalysis.
• Identify and describe the steps that are included in the preparation of a photocatalyst.
• Be familiar with the techniques used in photocatalysis, such as XRD, DRS, SEM.
• Understand the fundamental analytical techniques.
• Master the skills to choose and apply appropriate analysis techniques.
• Develop the critical thinking skills necessary for solving experimental problems.
授業の目的 【英語】
Goals of the Course
The purpose of this course is to provide a fundamental understanding of analytical chemistry principles and to demonstrate how these principles are applicable. Students will acquire fundamental tools and skills in chemical qualitative and quantitative procedures that can be applied in a variety of fields during this course.

At the end of the course, the students are expected to:
• Understand the fundamental concepts of photocatalysis.
• Identify and describe the steps that are included in the preparation of a photocatalyst.
• Be familiar with the techniques used in photocatalysis, such as XRD, DRS, SEM.
• Understand the fundamental analytical techniques.
• Master the skills to choose and apply appropriate analysis techniques.
• Develop the critical thinking skills necessary for solving experimental problems.
到達目標 【日本語】
Objectives of the Course(JPN))
The purpose of this course is to provide a fundamental understanding of analytical chemistry principles and to demonstrate how these principles are applicable. Students will acquire fundamental tools and skills in chemical qualitative and quantitative procedures that can be applied in a variety of fields during this course.

At the end of the course, the students are expected to:
• Understand the fundamental concepts of photocatalysis.
• Identify and describe the steps that are included in the preparation of a photocatalyst.
• Be familiar with the techniques used in photocatalysis, such as XRD, DRS, SEM.
• Understand the fundamental analytical techniques.
• Master the skills to choose and apply appropriate analysis techniques.
• Develop the critical thinking skills necessary for solving experimental problems.
到達目標 【英語】
Objectives of the Course
The purpose of this course is to provide a fundamental understanding of analytical chemistry principles and to demonstrate how these principles are applicable. Students will acquire fundamental tools and skills in chemical qualitative and quantitative procedures that can be applied in a variety of fields during this course.

At the end of the course, the students are expected to:
• Understand the fundamental concepts of photocatalysis.
• Identify and describe the steps that are included in the preparation of a photocatalyst.
• Be familiar with the techniques used in photocatalysis, such as XRD, DRS, SEM.
• Understand the fundamental analytical techniques.
• Master the skills to choose and apply appropriate analysis techniques.
• Develop the critical thinking skills necessary for solving experimental problems.
バックグラウンドとなる科目【日本語】
Prerequisite Subjects
Semiconductor physics, Inorganic chemistry
バックグラウンドとなる科目【英語】
Prerequisite Subjects
Semiconductor physics, Inorganic chemistry
授業の内容【日本語】
Course Content
The preparation of photocatalytic materials
The loading of cocatalysts
The performance tests for photocatalytic reactions: water splitting and carbon dioxide reduction
The analysis of the physicochemical properties of photocatalytic materials
The quantification of gas and liquid products
授業の内容【英語】
Course Content
The preparation of photocatalytic materials
The loading of cocatalysts
The performance tests for photocatalytic reactions: water splitting and carbon dioxide reduction
The analysis of the physicochemical properties of photocatalytic materials
The quantification of gas and liquid products
成績評価の方法と基準【日本語】
Course Evaluation Method and Criteria
The final course grade will be based on the total points earned for
experimental results and participation. The course components are scored as followed:
Experimental results (50%)
Class participation (50%)
Total (100%)
成績評価の方法と基準【英語】
Course Evaluation Method and Criteria
The final course grade will be based on the total points earned for
experimental results and participation. The course components are scored as followed:
Experimental results (50%)
Class participation (50%)
Total (100%)
履修条件・注意事項【日本語】
Course Prerequisites / Notes
No requirements for taking this class.

The lecture is held face-to-face, as long as this conforms to social distancing requirements. We will review the decision should advise from the university changes.
履修条件・注意事項【英語】
Course Prerequisites / Notes
No requirements for taking this class.

The lecture is held face-to-face, as long as this conforms to social distancing requirements. We will review the decision should advise from the university changes.
教科書【日本語】
Textbook
Printed handouts will be provided.
教科書【英語】
Textbook
Printed handouts will be provided.
参考書【日本語】
Reference Book
参考書【英語】
Reference Book
授業時間外学習の指示【日本語】
Self-directed Learning Outside Course Hours
授業時間外学習の指示【英語】
Self-directed Learning Outside Course Hours
使用言語【英語】
Language used
使用言語【日本語】
Language used
授業開講形態等【日本語】
Lecture format, etc.
授業開講形態等【英語】
Lecture format, etc.
遠隔授業(オンデマンド型)で行う場合の追加措置【日本語】
Additional measures for remote class (on-demand class)
遠隔授業(オンデマンド型)で行う場合の追加措置【英語】
Additional measures for remote class (on-demand class)