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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.
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.
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.
固体電子論(結晶構造、フォノン、自由電子、バンド構造など)の基礎を復習し、金属・半導体・超伝導体における電子論や、光電子分光などの電子状態を観測する実験手法について学習する。さらに、凝縮系物理学における最近のトピックスである、トポロジカル絶縁体、高温超伝導体、原子層物質などにおいて発現する様々な特異物性と、その背後にある電子構造との関連について理解する。
We revisit the basics of condensed-matter physics such as crystal structure, free electrons, and energy band structure, and learn electron dynamics of metals, semiconductors, and superconductors. We also study basic principle of key experimental techniques to prove electronic structure, such as photoelectron spectroscopy. Unusual physical properties of topological insulator, high-temperature superconductor, and atomic-layer materials, and their relationship with underlying electronic states will be introduced.
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.
Chemistry includes the fundamental analysis of atoms and molecules, which make up the world around us. By understanding the basics of atomic structure, reactivity and the formation of molecules, it is possible to create new substances with uses in advanced applications including medicine, energy, materials, environmental quality and others. The goal of this class will be to become familiar with the basics of chemistry, understand what atoms are composed of and their structure, learn about compounds, how to study these materials, and how they may be used to improve quality of human life.
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
現代社会で用いられている固体材料における様々な機能の発現メカニズムについて学び,その機能を発現,安定化,向上させる材料組成・組織制御技術に関する知識を得る.
2.概要
原子結合や組成,微細組織の制御に基づく材料機能の発現メカニズムを学び,構造材料,電子材料,光学材料,磁性材料,エネルギー変換材料,等の機能支配因子について論ずる.また,材料機能に深く関連する結晶構造,材料組成,微細組織等の観察・測定方法について学ぶ.
3.達成目標等
材料の各種機能の発現メカニズム,および,社会で使用されている各種機能材料に関する基礎知識を習得する.
Google Classroom のコード: snstfz4
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
This lecture offers an opportunity to understand the origins of various physical and chemical functions of materials, which are necessary for the development of devices and equipment. The lecture will also focus on how to control and optimize the material functions for practical applications.
2. Summary
This lecture will discuss the relationship between atomic bonding/alignment in materials and various properties such as mechanical, thermal, electronic, optical, ionic, magnetic, and electrochemical properties. The operating principles of characterization techniques of morphology, structure, crystal structure, elemental composition, which are closely related to material functions, will be also lectured.
3. Goal
Students will understand the basic concepts of material functions and how to control them for practical applications.
Google Classroom Code: snstfz4
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.