|
|
|
|
|
|
メディア授業とは,メディアを利用して遠隔方式により実施する授業の授業時数が,総授業時数の半数を超える授業をいいます。
メディア授業により取得した単位は,卒業要件として修得すべき単位のうち60単位を超えないものとされています。
|
|
|
|
|
|
|
Coordination Chemistry began with "Coordination Theory" proposed by Werner in 1905, which now covers non-Werner-type complexes such as organic metal compounds. You will know the birth of Coordination Chemistry and the following development. You are expected to master the nomenclature of Werner- and non-Werner-type complexes, symmetry, reactivity, and isomerism. You are required to understand crystal field theory and ligand field theory as a basis of transition elements and to know properties of the compounds.This class will be made by a faculty member who has practical experience in the research and development department of a chemical manufacturer, and the lecture includes more practical ideas.
|
|
|
|
|
|
|
|
|
|
・You will be able to discuss electric potential based on equilibrium theory and current based on kinetics.
・You will be able to explain the operating mechanism of batteries as an application of electrochemistry.
・You will be able to describe the relationship between electric potential and current in electron transfer rate-limiting processes using Butler-Volmer equation.
・You will be interested in familiar electrochemical phenomena and approaches to solving energy problems using electrochemistry.
|
|
|
|
At first, you will know from the birth of Coordination Chemistry to the historical background. Then, nomenclature of complexes, symmetry, isomerism, ligand field theory, and transition metals will be mastered. Several short tests will be taken to confirm your understanding.
|
|
|
|
|
|
第1回
|
1. Introduction and historical development
|
(1)Werener's coordination theory, (2)Kinds of ligands, (3)Coordination number, (4)Nomenclature
|
|
第2回
|
2. Coordination bonding
|
(1)Coupling of electron spins, (2)Electronic structure of atom, (3)Valence bond theory
|
|
第3回
|
3. Symmetry of complexes
|
(1)Rotation axis, (2)Symmetric plane, (3)Symmetric plane, (4)Rotatory reflection
|
|
第4回
|
4. Stereochemistry of complexes
|
(1)Geometric isomerism, (2)Optical isomerism, (3) Other isomerism
|
|
第5回
|
5. Reactions of coordination chemistry I
|
(1)Thermodynamic consideration, (2)Ligand exchange rate, (3)Classification of reaction mechanisms
|
|
第6回
|
6. Reactions of coordination chemistry II
|
(1)Nucleophilicity of entering group,(2)Isomerization reactions, (3)Redox reactions
|
|
第7回
|
7. Stability of complexes
|
(1)Stability constants of complexes, (2)Chelating effect
|
|
第8回
|
8. Reaction kinetics of coordination compounds I
|
(1)Reaction rate equation, (2)Mechanisms of substitution reactions
|
|
第9回
|
Practices
|
The contents from 1st to 8th weeks will be practiced.
|
|
第10回
|
9. Reaction kinetics of coordination compounds II
|
(1)Reaction rate equation, (2)Mechanisms of substitution reactions
|
|
第11回
|
10. Coordination bonding I
|
(1)Valence bond theory,(2)Crystal field theory
|
|
第12回
|
11. Coordination bonding II
|
Jahn-Teller effect
|
|
第13回
|
12. Ligand-field theory I
|
Ligand-field theory I
|
|
第14回
|
13. Ligand-field theory II
|
Ligand-field theory II
|
|
第15回
|
14. Organometallic Chemistry
|
Organometallic compounds
|
|
第16回
|
End-term examination
|
Written examination
|
|
※AL(アクティブ・ラーニング)欄に関する注
・授業全体で、AL(アクティブ・ラーニング)が占める時間の割合を、それぞれの項目ごとに示しています。
・A〜Dのアルファベットは、以下の学修形態を指しています。
【A:グループワーク】、【B:ディスカッション・ディベート】、【C:フィールドワーク(実験・実習、演習を含む)】、【D:プレゼンテーション】
|
|
|
|
|
|
A: --% B: --% C: --% D: --%
|
|
|
Attendance 5%, Homework 5%, End-of-term written test 90%
|
|
|
|
|
|
|
|
|
|
|
無機化学概論
|
|
9784621082881
|
|
|
小倉興太郎
|
|
丸善
|
|
2001
|
|
|
備考
|
|
|
(1)You are expected to understand the concepts of Coordination Chemistry and pay attention to its location in Chemistry and the relationship with other subjects.
(2)You will automatically fail if you attend less than 60% of the classes.
|
|
|
|
|
Coordination, Werner-type complex, Nomenclature, Ligand field theory, Transition element, Teacher with practical experience
|
|
|
|
| (エネルギー)すべての人々の、安価かつ信頼できる持続可能な近代的エネルギーへのアクセスを確保する。 |
| (気候変動)気候変動及びその影響を軽減するための緊急対策を講じる。 |
| (海洋資源)持続可能な開発のために海洋・海洋資源を保全し、持続可能な形で利用する。 |
|
|
|
Inorganic Chemistry, Analytical Chemistry
|
|
|
|
|
|
nkymm#yamaguchi-u.ac.jp (# to @)
Room 407
|
|
|
|
|
13:00〜16:00 and any other time
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|