317 件ヒット (0.05秒):
Google Classroomのクラスコードは工学研究科Webページ
https://www.eng.tohoku.ac.jp/edu/syllabus-g.html
(大学院シラバス・時間割・履修登録)にて確認すること。
1. Aim
Coordination chemistry dealing with synergy between metal ions and ligands has departed from the field of classical inorganic chemistry for a wide variety of interdisciplinary fields such as analytical, materials, bioinorganic, and biomedical chemistry. To explore the fields, understanding of the basic concepts of coordination chemistry as well as the comprehensive back ground of the topics are essential. This course helps students to gain those basics by dealing with hot topics in the current coordination chemistry.
2. General content
This course consists of five main topics; essential concepts in coordination chemistry, analytical applications, bio-inorganic aspects, biomedical application, and functional materials design. In each topic, basic concepts will be introduced such as structural characterization, physicochemical properties, thermodynamics, chemical kinetics, and chemical functions.
3. Goal
By dealing with the topics, students are expected to
- Obtain deep understanding of basic concepts of coordination chemistry.
- Widen the perspective for science concerning coordination chemistry.
The class code for Google Classroom can be found on the Web site of the School of Engineering:
https://www.eng.tohoku.ac.jp/english/academics/master.html (under "Timetable & Course Description")
1. Aim
Coordination chemistry dealing with synergy between metal ions and ligands has departed from the field of classical inorganic chemistry for a wide variety of interdisciplinary fields such as analytical, materials, bioinorganic, and biomedical chemistry. To explore the fields, understanding of the basic concepts of coordination chemistry as well as the comprehensive back ground of the topics are essential. This course helps students to gain those basics by dealing with hot topics in the current coordination chemistry.
2. General content
This course consists of five main topics; essential concepts in coordination chemistry, analytical applications, bio-inorganic aspects, biomedical application, and functional materials design. In each topic, basic concepts will be introduced such as structural characterization, physicochemical properties, thermodynamics, chemical kinetics, and chemical functions.
3. Goal
By dealing with the topics, students are expected to
- Obtain deep understanding of basic concepts of coordination chemistry.
- Widen the perspective for science concerning coordination chemistry.
1. Aim
Coordination chemistry dealing with synergy between metal ions and ligands has departed from the field of classical inorganic chemistry for a wide variety of interdisciplinary fields such as analytical, materials, bioinorganic, and biomedical chemistry. To explore the fields, understanding of the basic concepts of coordination chemistry as well as the comprehensive back ground of the topics are essential. This course helps students to gain those basics by dealing with hot topics in the current coordination chemistry.
2. General content
This course consists of five main topics; essential concepts in coordination chemistry, analytical applications, bio-inorganic aspects, biomedical application, and functional materials design. In each topic, basic concepts will be introduced such as structural characterization, physicochemical properties, thermodynamics, chemical kinetics, and chemical functions.
3. Goal
By dealing with the topics, students are expected to
- Obtain deep understanding of basic concepts of coordination chemistry.
- Widen the perspective for science concerning coordination chemistry.
この講義は,3期連続して行なわれる一連の講義,①専門基礎化学II(第3セメスター),②無機分析化学概論B(第4セメスター),③無機分析化学概論C(第5セメスター)の③の部分に相当する。この3期の講義を通じて,無機化学全般の基礎を習得することを目的とする。
This is the third class among a class series of general inorganic and analytical chemistry: basic chemistry II (3rd semester), general inorganic and analytical chemistry B (4th semester), general inorganic and analytical chemistry C (5th semester), that are aimed to learn fundamentals of inorganic and analytical chemistry.
Conduct exercises in inorganic and analytical chemistry, in particular an area from basic inorganic chemistry to coordination chemistry related to the solid-state molecular chemistry, by explaining their fields.
Conduct exercises in inorganic and analytical chemistry, in particular an area from basic inorganic chemistry to coordination chemistry related to the solid-state molecular chemistry, by explaining their fields.
You learn fundamental experimental operations of inorganic chemistry, analytical chemistry, and the related fields.
You learn fundamental experimental operations of inorganic chemistry, analytical chemistry, and the related fields.
This class is a survey of the general properties and reactivity of main group elements and transition metals. During the course, we cover chapters 9-22 in Inorganic Chemistry, 6th ed.
This class is a survey of the general properties and reactivity of main group elements and transition metals. During the course, we cover chapters 9-22 in Inorganic Chemistry, 6th ed.
物理化学、分析化学、無機化学および有機化学に関する一般的な基礎実験を学習した後、無機・分析・放射化学に関する実験の基礎的手法を学習する。また、ガラス細工、コンピューターを使用した分子計算の手法を学習する。
You learn fundamental experimental operations of inorganic chemistry, analytical chemistry, and the related fields, in Japanese.
超分子や多次元格子に関する化学のトピックスを議論することで、その内側にある様々な「化学」を学ぶ。事前に調べてきた話題と内容を発表し、クラスで議論することでプレゼンテーション能力を高める。
Topics will include the structure and mechanical and physical properties of supramolecular complexes and multi-dimensional framework systems. Each topic assigned to you should be pre-investigated before your presentation. We will get various knowledes on the basic science in the field of supramolecular complexes and multi-dimensional framework systems through our presentation and discussion.
This class will cover general analytical and inorganic chemistry, such as equilibria, acids and bases, acid-base equilibria, oxidation and reduction reactions, electrochemistry, etc.
This class will cover general analytical and inorganic chemistry, such as equilibria, acids and bases, acid-base equilibria, oxidation and reduction reactions, electrochemistry, etc.
Google Classroomのクラスコードは工学部Webページにて確認すること。
学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
1. 目的
無機化学反応を利用して様々な素材をつくる化学関連産業を支える資源および素材の製造プロセス,また地球規模に達した人間活動に伴って発生する多様でしかも大量の廃棄物,環境汚染物質のリサイクル・無害化プロセスについて学習することを目的とする。
2. 概要
人間活動を支えるエネルギー資源,非金属資源,金属資源の現状,それらを利用する狭義の無機化学工業の他,金属製錬,セメント工業及び環境関連技術など下記に示す広義の無機化学関連分野についてその基本プロセス,原理等を講義する。
3. 達成目標等
・資源の総合的有効利用の重要性が理解できること。
・化学工業の最適化が,製造コストに加えて,環境影響,資源・リサイクル等も考慮
すべき理由が説明できること。
・代表的な無機化学関連プロセスの構成とその原理が説明できること。
The class code for Google Classroom can be found on the Web site of
the School of Engineering:
https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)
1. Purpose
In the chemical industry, inorganic chemical reactions are the basis for making various materials. On the other hand, various and large amounts of waste and environmental pollutants are generated with human activities. The purpose of this class is to learn about the process of recycling and treating environmentally hazardous substances from the viewpoint of resource and material manufacturing processes.
2. Overview
This section introduces energy resources, non-metal resources, and metal resources that support human activities. In addition, lectures will be given on the basic processes and principles of the inorganic chemical industry, metal smelting, cement industry, and environment-related technologies that utilize the above resources.
3. Achievement target, etc.
・ Understand the importance of comprehensive and effective use of resources.
・ Explain why the optimization of the chemical industry should consider environmental impacts, resources and recycling in addition to manufacturing costs.
・ Be able to explain the configuration and principle of typical inorganic chemistry-related processes.