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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.
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.
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.
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②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 second 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.
量子化学は現代化学の基礎となる重要な分野である。本講義では,前学期に学んだ量子化学Iの知識をもとに,まずシュレーディンガー方程式の近似解法(変分法と摂動法)を学ぶ。続いてハートリー・フォック法を多電子原子系に適用し,スレーター行列式,電子スピン,原子の多重項構造などを理解する。その後,分子軌道法を二原子分子,さらに多原子分子に適用して,化学結合の本質や分子構造がどのように定まるのかなどを学ぶ。この一連の講義を通して,量子化学を化学の諸問題に適用する上での基本的な力を養う。
Quantum chemistry is an important subject as a basis of all fields of modern chemistry. In this lecture series the students learn firstly the approximation methods for solving Schrodinger equations, variational method and perturbation theory, based on the knowledge of the lectures on "Quantum Chemistry I" last semester. Next they applied Hartree-Fock approximation to multi-electron atoms and understand Slater determinant, electron spin, multiplet electron structures of atoms, and so on. Finally, they learn the nature of the chemical bonds and how the molecular structures are determined, by applying molecular orbital theory to diatomic and polyatomic molecules. Through the series of lectures students develop the fundamental knowledge for applying quantum chemistry to various problems in chemistry.
This course builds from the basic electronic structure of atoms and molecules to bonding in compounds to structure and finally to the relationship between the structure and properties of compounds.It is my aim that students will develop tools needed to predict the properties from the electronic and physical structures of relatively simple compounds.
This course builds from the basic electronic structure of atoms and molecules to bonding in compounds to structure and finally to the relationship between the structure and properties of compounds.It is my aim that students will develop tools needed to predict the properties from the electronic and physical structures of relatively simple compounds.
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.
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.
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。
機能無機材料の設計においては,結晶化学や状態図,固体物性等の理解が重要である。固体化学の知識を基礎として,高温,高圧,電場,磁場等の反応場制御による材料合成法や,セラミックスのキャラクタリゼーション技術,複合化・組織制御による機能発現等について体系的に講義するとともに,先端無機材料の話題について概説する。
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")
Design of functional inorganic materials is based on the knowledge of crystal chemistry, phase equilibria, solid state physics, etc. The aims of this class are to provide introductions to inorganic synthesis under high temperature, high pressure, electric and magnetic fields, characterization of solids, and the concepts for material design by microstructure developments on the basis of solid state chemistry. The current topics of advanced inorganic materials are discussed.
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①に相当する.この3期の講義を通じ,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 first 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 at learning fundamentals of inorganic and analytical chemistry.