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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.
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.
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
関連する応用化学・有機化学・バイオ工学の講義より得られた知識を各種の問題に応用することにより、多面的かつ有機的に理解を深める。
2.概要
有機化学および生物工学関連の講義により得られた知識をもとに、有機分子、生体分子の構造決定・機能解析に用いられる方法論の基礎的な考え方、応用について演習する。界面化学および材料物性化学の講義により得られた知識をもとに、無機化学関連の構造化学、物性評価の問題の演習をする。
3.達成目標等
化学系研究で必須の、各種測定機器より得られる化合物・生体分子に関するスペクトルを解釈して、分子構造・機能に関する情報を得ることができる。無機化学の基本的な考え方を理解し、応用することができる。
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
By solving exercises in applied chemistry, organic chemistry, and biotechnology, students gain a further understanding of the knowledge obtained from related lectures.
2. Overview
Based on the knowledge obtained through lectures related to organic chemistry and biotechnology, students practice fundamental concepts and applications of methodologies for structure determination and functional analysis of organic molecules and biomolecules. Based on the knowledge obtained through lectures related to surface chemistry and material physical chemistry, students practice inorganic chemistry-related structural chemistry and physical property evaluation problems.
3. Learning Goals
Students will interpret spectra of compounds and biomolecules obtained from various measuring instruments, which are essential in chemical research, and obtain information on molecular structures and functions. Students will understand the basic concepts of inorganic chemistry and apply it.
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.
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
分析化学は、様々な物質を同定して定量する方法、すなわち化学分析法を設計する学問である。この授業では、分析化学の基盤である溶液内反応を定量的に扱う方法を学ぶ。
2.概要
化学反応を定量的に表現することに習熟するため、化学量論と物質収支式、電荷収支式および平衡定数の式の取り扱いを、酸塩基、錯形成、酸化還元、沈殿溶解などの分析化学反応を例として学ぶ。
3.達成目標等
・物質収支式および電荷収支式の取り扱いと質量作用則を理解し、平衡定数および化学種の平衡濃度の推算を行うことができる。
・いくつかの化学分析法が成立する要件と操作条件を,平衡論に基づいて考察できる。
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. Object
Analytical chemistry is a discipline to construct methods for chemical analysis aimed at identification and quantification of substances. In this lecture, we learn methods to describe chemical equilibria in aqueous solutions in quantitative fashions.
2. Summary
To gain ability to describe chemical equilibria in solution, we learn chemical stoichiometry, mass and charge balances, and equilibrium constants through application to examples such as acid-base, complexation, redox, and precipitation.
3. Goal
You are expected
1. to estimate concentration of species in equilibria through equations of mass and charge balances and definition of equilibrium constants.
2. to set conditions to design chemical analysis on the basis of equilibria.
薬学における分析化学は、医薬品の創製と薬効・体内動態解析など、創薬科学・生命科学に必須な基礎学問である。本講では、医薬品の分析に不可欠な、分光分析法、各種クロマトグラフィー、質量分析法の基本的知識とその利用を中心に理解することを目的とする。また、日本薬局方記載医薬品の確認試験、純度試験として用いられる有機物、無機イオンの定性分析法も理解する。
Analytical chemistry in pharmaceutical sciences is an essential basic science in drug discovery and ADME researches (pharmacokinetics and pharmacology for "absorption, distribution, metabolism, and excretion). This course covers the basic knowledge and applications of spectroscopy, chromatography, and mass spectrometry. The aim is to help students understand basic instrumental analyses. Qualitative analyses and purity tests for organic/inorganic compounds in Japanese Pharmacopoeia, 17th Ed. (JP17) are also introduced.
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.
In this course, students will understand various analytical methods based on the fundamental knowledge on analytical chemistry learnt in Special Class in Basic Chemistry IV.
In this course, students will understand various analytical methods based on the fundamental knowledge on analytical chemistry learnt in Special Class in Basic Chemistry IV.