有機化学概論Ｃ（AMC） / General Organic Chemistry C (AMC, Chemistry of Carbonyl Compounds)  

  鬼塚 和光  

  理  

  前期前半  

  前期前半 火曜日 2講時 / 前期前半 金曜日 1講時  

Learning the chemistry of carbonyl compounds - main reactions, methods of synthesis, reaction mechanisms and synthetic applications.

Learning the chemistry of carbonyl compounds - main reactions, methods of synthesis, reaction mechanisms and synthetic applications.

  有機化学概論Ａ（AMC） / General Organic Chemistry A  

  水上 進  

  理  

  後期  

  後期 金曜日 2講時  

Objective and Summary of Class:

  This class is part of organic chemistry classes, including Special Class in Basic Chemistry III, and General Organic Chemistry A, C, and D. The lecture covers the following topics:

(1) Basic chemistry of organic halides.

(2) Nucleophilic substitution reactions and reaction theory

(3) Diene and allylic systems

(4) Conjugated and aromatic compounds

(5) Aromatic substitution reactions

(6) Properties of alcohols, phenols, ethers, and thiols.

This class will provide the broad fundamentals of organic chemistry that are essential for students to be a chemist.

Objective and Summary of Class:

  This class is part of organic chemistry classes, including Special Class in Basic Chemistry III, and General Organic Chemistry A, C, and D. The lecture covers the following topics:

(1) Basic chemistry of organic halides.

(2) Nucleophilic substitution reactions and reaction theory

(3) Diene and allylic systems

(4) Conjugated and aromatic compounds

(5) Aromatic substitution reactions

(6) Properties of alcohols, phenols, ethers, and thiols.

This class will provide the broad fundamentals of organic chemistry that are essential for students to be a chemist.

  有機化学概論Ｄ（AMC） / General Organic Chemistry D  

  永次 史  

  理  

  前期後半  

  前期後半 火曜日 2講時 / 前期後半 金曜日 1講時  

Objective and Summary of Class:

   This class is part of series of organic chemistry classes, including General Organic Chemistry A, C, and D.

This lecture will concersn the following topics:

(1) Basic chemistry of amines and helelocycles

(2) Chemistry of biomolecules

  2-1 Carbohydrates

  2-2 Aminoacids, Peptides and Proteins

  2-3 Lipids

  2-4 Nucleic acids

(3) The organic chemistry of metabolic pathway

(4) Pericyclic reactions : electrocyclic reactions, cyclo additions and sigmatropic rearrangements

Objective and Summary of Class:

   This class is part of series of organic chemistry classes, including General Organic Chemistry A, C, and D.

This lecture will concersn the following topics:

(1) Basic chemistry of amines and helelocycles

(2) Chemistry of biomolecules

  2-1 Carbohydrates

  2-2 Aminoacids, Peptides and Proteins

  2-3 Lipids

  2-4 Nucleic acids

(3) The organic chemistry of metabolic pathway

(4) Pericyclic reactions : electrocyclic reactions, cyclo additions and sigmatropic rearrangements

  有機化学概論Ａ / General Organic Chemistry A  

  林 雄二郎  

  理  

  後期  

  後期 金曜日 2講時  

化学Ｃ、専門基礎化学Ⅲ、有機化学概論Ａ、Ｃ、Ｄという連続した内容の講義の一部である。ただし、機器スペクトルに関する部分は除いて講義し、次の内容を含む。

(1)　アルコール、フェノール類の特性

(2) エーテル、エポキシド、チオール、スルフィド類の特性

(3)　共役π電子系とペリ環状反応

(4)　芳香族化合物の特性

(5)　芳香族置換反応

 有機化学を専攻しようとするものはもちろん、広く化学者になろうとするものが有機化学の基礎を修得するのに必要である。有機化学概論Ｃ、Ｄを続けて履修すること、また、有機化学演習A、および有機化学IA、IIA（機器スペクトルに関する講義）を履修することが望ましい。

The purpose of this class is to understand the basic organic chemistry of alcohol, ether, pi-conjugated diene, pericyclic reaction, and aromatic compounds. The “Organic Chemistry” textbook written by Klein will be used, and this class will cover chapters of 12, 13, 14, 17, 18, and 19.

  有機化学演習Ｂ（AMC） / Exercises in Organic Chemistry B  

  永次 史, 和田 健彦  

  理  

  前期  

  前期 水曜日 2講時  

Understanding of organic chemistry will be deepened by performing exercises based on the lecture contents of "General Organic Chemistry C" and "General Organic Chemistry D" (from chapter 19 up to chapter 29 in McMurry, "Organic Chemistry", 8th ed.)

Understanding of organic chemistry will be deepened by performing exercises based on the lecture contents of "General Organic Chemistry C" and "General Organic Chemistry D" (from chapter 19 up to chapter 29 in McMurry, "Organic Chemistry", 8th ed.)

  化学Ｃ  

  有本 博一  

  農②  

  2セメスター  

  後期 月曜日 4講時 川北キャンパスB204  

生物や生命の科学にも密接に関連する有機化学の基礎を学ぶことを目的とする。官能基で分類された有機化合物群の性質、基本的な反応と反応機構、合成について、有機電子論と立体化学の考え方を中心に丁寧に解説する。

The objective of this course is to learn the basics of organic chemistry, which is closely related to the life sciences. The course will cover the properties of organic compounds classified by functional groups, stereochemistry, basic reactions and their mechanisms, and organic synthesis.

  有機化学概論Ｃ / General Organic Chemistry C  

  寺田 眞浩  

  理  

  前期  

  前期 火曜日 2講時  

化学Ｃ、専門基礎化学Ⅲ、有機化学概論Ａ，Ｃ，Ｄという連続した内容の講義の一部であり、有機化学を系統的に理解する上で重要である。

化学Ｃ、専門基礎化学Ⅲ、有機化学概論Ａの内容を予備知識として必要とする。有機化学概論Ｄと並行して開講される。

One of the key classes of organic chemistry, which involve Chemistry C, Specialized Fundamental Chemistry III, General Organic Chemistry A, C, and D, for increasing fundamental knowledge of organic chemistry.

  有機合成化学 / Synthetic Organic Chemistry  

  服部 徹太郎, 諸橋 直弥  

  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

現代の物質文明を支える様々な有機化合物が有機炭素資源からどのようにしてつくられるか、またそのための基礎的な合成法を学ぶ。

２．概要

有機化合物の合成法は、炭素-炭素結合の形成と官能基の変換の組み合わせからなる。本講義前半では、芳香族化合物の選択的な合成法を学ぶ。後半では、有機合成反応で重要な地位を占める有機典型金属化学の基礎と有機合成反応への応用について学ぶ。

３．達成目標

この講義では、主に以下のような能力を修得することを目標とする。

・簡単な有機化合物について、有機炭素源からの変換経路を理解し、説明することができる。

・多くの有機化合物が、ごく限られた有機炭素源から合成されることを理解し、基礎的な合成法を説明することができる。

・主要な炭素－炭素結合形成法、官能基変換法を理解し、説明することができる。

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. Purpose

Students will learn how various organic compounds that support modern material civilization are made from organic carbon resources and basic synthetic methods for that purpose.

2. Overview

The synthetic process of organic compounds generally consists of the combination of C-C bond formation and functional group transformation. In the first half of this course, students will learn methods to selectively prepare aromatic compounds with desired structures. In the latter half, students will learn fundamentals of main group organometallic chemistry and synthetic reactions involving organometallic compounds.

3. Goal

The main objective of this course is to acquire the following skills

∙ Understanding and being able to explain synthetic schemes of simple organic compounds from organic carbon sources.

 ∙ Understanding that many organic compounds are synthesized from limited organic carbon sources and being able to explain basic synthetic methods.

 ∙ Understanding and being able to explain the main methods of carbon-carbon bond formation and functional group transformation.

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

  ＢＲＥＥＤＬＯＶＥ ＢＲＩＡＮ  

  理  

  前期  

  前期 金曜日 4講時  

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.

  生物化学ⅡＡ（AMC） / Biochemistry of nucleic acid and protein synthesis.  

  理学部非常勤講師  

  理  

  後期前半  

  後期前半 金曜日 2講時  

To learn the biological phenomena at the molecular level and to gain a deeper understanding of biochemsity, molecular biology and biophysics.

To learn the biological phenomena at the molecular level and to gain a deeper understanding of biochemsity, molecular biology and biophysics.

It is desirable to consistently attend the discussions in Biochemistry IIB concerning the photosynthesis, protein turnover and protein trafficking.