無機分析化学概論Ｃ（AMC） / General Inorganic and Analytical Chemistry C (AMC)  

  ＢＲＥＥＤＬＯＶＥ ＢＲＩＡＮ  

  理  

  前期  

  前期 木曜日 2講時  

The objective of this class is to introduce frontiers of inorganic chemistry. The aim of the class is to show how developments in inorganic chemistry impinges on the other disciplines, such as life science, condensed matter physics, and materials chemistry. We will discuss materials chemistry focusing on solid-state compounds, their structures, and electronic, magnetic, and optical properties. In addition, we will discuss nanomaterials and biosensors and introduce the area of catalysis.

The objective of this class is to introduce frontiers of inorganic chemistry. The aim of the class is to show how developments in inorganic chemistry impinges on the other disciplines, such as life science, condensed matter physics, and materials chemistry. We will discuss materials chemistry focusing on solid-state compounds, their structures, and electronic, magnetic, and optical properties. In addition, we will discuss nanomaterials and biosensors and introduce the area of catalysis.

  専門基礎化学Ⅱ（AMC） / Special Class in Basic Chemistry II (AMC)  

  ＢＲＥＥＤＬＯＶＥ ＢＲＩＡＮ  

  理  

  前期  

  前期 金曜日 3講時  

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.

  電子物性Ａ / Solid State Physics  

  佐藤 茂雄  

  工  

   

   

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

情報電子デバイスやナノ電子デバイスの元になる金属，半導体，絶縁体などの物質（無機固体）の基礎的性質を理解する。

２．概要

物質の素材としての原子の構造から始めて，原子が集まって固体となるしくみ，原子の規則的配列構造である固体結晶の性質，固体結晶中での電子の振る舞い，金属と半導体や絶縁体との違いなどについて講義する。

３．達成目標等

電子物性の基礎となるバンド理論を習得して，それを土台に固体の電気伝導，磁性，光学的性質についての理解を深めることを目標とする。

The class code for Google Classroom can be found on the Web site of

the School of Engineering:

https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)

1. Objective

Students will learn basic properties of materials (Inorganic solid) such as metals, semiconductors, insulators, and so on, which are used to make information electronic and nanoelectronic devices.

2. Outline

The lecture explains structures of atoms as components of substances, mechanism in which atoms assemble and form a solid, properties of solid crystals having regular atomic arrangements, behavior of electrons in solid crystals, differences between metals, semiconductors, and insulators, and so on.

3. Goal

This course is intended to allow students to learn band theory as fundamental knowledge, and then to understand electrical conduction, magnetism, and optical properties of solids.

  固体化学 / Solid State Chemistry  

  滝澤 博胤, 林 大和  

  工  

   

   

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

無機物質を中心とした固体に関し、化学結合論、結晶構造、電子構造等の知識に基づいて、電気的、磁気的、光学的性質など、物性との相関を理解する。

２．概要

機能性無機固体に関し、形態に応じた様々な合成法を学ぶとともに、結晶構造と諸物性を基礎的かつ体系的に把握する。

３．達成目標等

・無機固体の機能発現の機構が説明できること。

・新しい機能材料の設計の指針が提案できること。

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)

In this course, students will understand the origin of functionality of inorganic solid materials based on the knowledge of chemical bonding, crystal structure, and electronic structure of the materials.

Students will learn about various preparative methods for solid materials and the systematic interpretation of physical properties in the view point of structural aspect.

  無機化学ⅠＡ（AMC） / Electronic Properties of Inorganic Materials  

  高坂 亘  

  理  

  後期前半  

  後期前半 木曜日 2講時  

固体の性質は主に電子構造により支配されている。

本講義では、結晶構造を形成する原子間結合や、電気伝導性に代表される電気的性質に関して、電子構造に基づいて理解することを目指す。

Properties of solid are mainly dominated by an electronic structure of material.　In this class, we will learn how to understand the atomic bonds, which form a crystal structure, and electric properties such as electrical conductivity of materials based on the electronic structure.

  無機分析化学概論Ａ（AMC） / General Inorganic and Analytical Chemistry A (AMC)  

  ＢＲＥＥＤＬＯＶＥ ＢＲＩＡＮ  

  理  

  後期  

  後期 金曜日 1講時  

Analytical chemistry is an important area of chemistry as it covers not only qualitative anaylsis of samples using forms of spectroscopy, electrochemistry, etc. and quantification of species in samples but also data analysis. This class is designed for students to gain knowledge in analytical techniques and concepts involved in those techniques.

Analytical chemistry is an important area of chemistry as it covers not only qualitative anaylsis of samples using forms of spectroscopy, electrochemistry, etc. and quantification of species in samples but also data analysis. This class is designed for students to gain knowledge in analytical techniques and concepts involved in those techniques.

  機能無機材料化学 / Chemistry of Advanced Inorganic Materials  

  滝澤 博胤, 林 大和  

  工  

   

   

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.

  先端化学・生物化学特殊講義ⅠＡ / The electronic and ionic properties of solid  

  高石 慎也  

  理  

  前期集中  

  前期集中 その他 連講  

The purpose of this class is to understand electronic and ionic state of solids based on the chemical bonds.

In addition, we deal with the recent progress on the energy devices based on their electronic and ionic properties.

The purpose of this class is to understand electronic and ionic state of solids based on the chemical bonds.

In addition, we deal with the recent progress on the energy devices based on their electronic and ionic properties.

  先端化学・生物化学特殊講義ⅠＢ / Round table discussion of the textbook on "solid state chemistry"  

  高石 慎也  

  理  

  後期集中  

  後期集中 その他 連講  

The purpose of this class is deeply understanding the electronic structures in the solid materials via round lecture of the textbook.

The purpose of this class is deeply understanding the electronic structures in the solid materials via round lecture of the textbook.

  無機分析化学演習Ｂ（AMC） / Exercises in Inorganic and Analytical Chemistry: From Basic Inorganic Chemistry to Coordination Chemistry and Ligand-Field Theory  

  芳野 遼, 福山 真央  

  理  

  前期  

  前期 月曜日 1講時  

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.