095111 先端総合化学特論Ⅰ [Moder n T rends in Chemical Sciences a nd Enginee ring I] 総合化学特論Ⅰ[Mo dern Tren ds in Physical and Ma terial Chemist ry] 095201 総合化学研究・指導法 [Research in Chemical Sciences and Engine ering III ] 科目名 Course Title 総合化学研究・指導法[Research in Chemical Sciences and Engineering III] 講義題目 Subtitle 責任教員 Instructor 総合化学院代議員 担当教員 Other Instructors 担当は主任指導教員 開講年度 Year 2020 時間割番号 Course Number 期間 Semester 通年 単位数 Number of Credits 2 授業形態 Type of Class 演習 対象年次 Year of Eligible Student 1〜3 ナンバリングコード Numbering Code CHEM_REQEL 7101 補足事項 Other Information

キーワード Key Words 実験法の改良・開発 実験指導法 成果とりまとめとプレゼンテーション技法 論文執筆 化学英語 授業の目標 Course Objectives 博士研究を遂行するにあたって必要となる実験手法・技法の改良や開発、研究成果の取りまとめとプレゼンテーション法、英語

による論文執筆の進め方等を系統的に学習し、実験・研究指導者となるための実践的知識と能力を養う。 到達目標 Course Goals 博士学位取得者として備えるべき研究開発能力やプレゼンテーション能力、成果取りまとめ能力、分野開拓能力等を実践的に

養う。 授業計画 Course Schedule 博士課程における各学年において、大学院生の研究・学習の進捗状況に応じて適宜、以下の指導を行うことにより、授業の目

標を達成する。

１）研究テーマに関する研究計画、計画を遂行するための実験手法の改良・開発に関する課題を与え、その取り組み状況に応

じて適切なアドバイスを与え、より大きな成果が上がるよう指導する。必要に応じ、適宜、レポート提出を求めるとともに、実験・研

究指導を行う。 ２）研究結果の取りまとめ、プレゼンテーション法の技術的・科学的指導を行う。特に、論理的に研究成果をまとめ、その成果を

客観的かつ明確にプレゼンテーションする技法の指導を行う。 ３）英文を含めた論文執筆法の指導を行う。研究成果を論理的に整理し、適切な取りまとめを通して、科学技術論文として発表

を行うことのできる能力を養う。日本語・英語ともに、適切な論文取りまとめができる能力を養う指導を行う。

このような取り組みを通して、博士取得者としての新たな実験法の開発能力や総合的な問題解決能力・指導力を涵養する。 準備学習 (予習・復習)等の内容と分量 Homework 与えられた課題に対し、次の実験・研究段階に進むための十分な準備学習。 成績評価の基準と方法 Grading System 日常的な取り組みと定期的なレポート作成（50％）、取り組みの成果等（50％）を総合的に評価する。 テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites

研究室のホームページ Websites of Laboratory

備考 Additional Information

科目名 Course Title 先端総合化学特論Ⅰ[Modern Trends in Chemical Sciences and Engineering I] 講義題目 Subtitle 総合化学特論Ⅰ[Modern Trends in Physical and Material Chemistry] 責任教員 Instructor 中坂 佑太 [Yuta NAKASAKA] (大学院工学研究院) 担当教員 Other Instructors 坪内 直人(工学研究院), 古川 森也(触媒科学研究所), 藤田 進一郎(工学研究院),

景山 義之(理学研究院), 小門 憲太(理学研究院), 小林 広和(触媒科学研究所) 開講年度 Year 2020 時間割番号 Course Number 095111 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7111 補足事項 Other Information

キーワード Key Words thermoresponsive polymers, metallic catalysts, nitrogen-doped metal-free carbon, clean coal, self-organization of molecular

motion, diffusion 授業の目標 Course Objectives Control of thermodynamics, molecular dynamics and mass transfer in free and limited space play an important role for

development of advanced materials and reaction field, and for process design. This course aims to provide the understanding

on design of advanced materials and catalyst, and construction of reaction field and process based on the above factors by

introducing recent research topics. Seven instructors introduce basic concept, trend of their research topics, and their

research findings. 到達目標 Course Goals The goal of this lecture is getting knowledge on basic concept, research trend and research findings of following topics

introduced by instructors. ・A theory and design for thermoresponsive polymers and their application ・Catalytic conversion of biomass to chemicals ・Design of metallic catalysts for efficient molecular transformation ・Self-organization of molecular motion forming macroscopic real world ・Clean Coal Technology: Elucidation of Nitrogen Chemistry in Coal Utilization ・Nitrogen-doped metal-free carbon catalysts having various functions ・Diffusion in porous catalyst: effect of diffusion rate on reaction rate 授業計画 Course Schedule (Day 1) A theory and design for thermoresponsive polymers and their application (Day2) Catalytic conversion of biomass to chemicals Design of metallic catalysts for efficient molecular transformation (Day3) Self-organization of molecular motion forming macroscopic real world (Day4) Clean Coal Technology: Elucidation of Nitrogen Chemistry in Coal Utilization Nitrogen-doped metal-free carbon catalysts having various functions (Day 5) Diffusion in porous catalyst: effect of diffusion rate on reaction rate 準備学習 (予習・復習)等の内容と分量 Homework Students will be required to review lecture contents using lecture materials. To check your understanding level of the lecture, you are required to submit reports. 成績評価の基準と方法 Grading System It is required to attend at least 70% of the lectures. Evaluation as pass/fail will be based on the level of attendance (20%) and

submitted reports (each time, 80% in total). テキスト・教科書 Textbooks Lecture materials will be distributed. 講義指定図書 Reading List N/A 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G129 研究室のホームページ Websites of Laboratory

備考 Additional Information

095112 先端総合化学特論Ⅰ [Moder n T rends in Chemical Sciences a nd Enginee ring I] 総合化学特論Ⅱ[Mo dern Tren ds in Organic Chemistry and B iological Chemistry ] 科目名 Course Title 先端総合化学特論Ⅰ[Modern Trends in Chemical Sciences and Engineering I] 講義題目 Subtitle 総合化学特論Ⅱ[Modern Trends in Organic Chemistry and Biological Chemistry] 責任教員 Instructor 村上 洋太 [Yota MURAKAMI] (大学院理学研究院) 担当教員 Other Instructors 上野 貢生(理学研究院), 内田 毅(理学研究院), 分島 亮 (理学研究院),

岩井 智弘(理学研究院), 土井 貴弘(理学研究院), 福島 知宏(理学研究院),

SHROTRI ABHIJIT(触媒科学研究所) 開講年度 Year 2020 時間割番号 Course Number 095112 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7111 補足事項 Other Information

キーワード Key Words Epigenetis, Photochemistry, f Nanostructure, Vibrational spectroscopy, Catalyst, Organic Synthesis, Biomass, Transition

Metal Oxides, Ion Transport 授業の目標 Course Objectives Lectures on scientific research in broad range of Chemistry including Biological and Polymer Chemistry will be given in

English. In this course, the basic concepts and an overview necessary for understanding the advanced research are introduced,

followed by explanations of cutting-edge researches in various fields of chemistry. Fields covered by the lectures include 1)

Molecular Basis for Epigenetic Regulation of Genome 2) Photochemistry of Nanostructured Materials for Light Energy Conv 3)

Vibrational spectroscopy as a tool to study biomolecules 4) Catalyst Design for Efficient Organic Synthesis 5) Current Status

and Future Prospects of Lignocellulosic Biomass Conversion 6) Crystal structures and physical properties of transition metal

oxides, chalcogenides, and oxychalcogenides 7) Plasmonically-driven Ion Transport.

到達目標 Course Goals Through a series of lectures in various fields of chemistry in English, students will learn a broad perspective and an

international sense in chemical researches. 授業計画 Course Schedule Lectures will be provided by young assistant and associate professors in the Graduate School of Chemical Sciences and

Engineering. A schedule of lecturers and titles will be informed in the first lecture of the course.

準備学習 (予習・復習)等の内容と分量 Homework Assignment is required for every lecture. 成績評価の基準と方法 Grading System It is required to attend at least 70% of the lectures. Evaluation as pass/fail will be based on the level of attendance (20%) and

submitted reports (each time, 80% in total). テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G015 研究室のホームページ Websites of Laboratory

備考 Additional Information

095121 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Molecula r Chemist ry and Engineering I - 2020 [Leading and Advanced Molecula r Chemist ry and Engineering I - 2020 ] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Molecular Chemistry and Engineering I - 2020 責任教員 Instructor 佐田 和己 [Kazuki SADA] (大学院理学研究院) 担当教員 Other Instructors Peter BRZEZINSKI (Stockholm University),

石森 浩一郎(理学研究院), 内田 毅(理学研究院) 開講年度 Year 2020 時間割番号 Course Number 095121 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Electron Transfer, Proton Transfer, Respiratory Chain, Cytochromes, Kinetic Analysis 授業の目標 Course Objectives The course aims to provide students with a foundation in the basic concepts of biophysics in electron and proton transfer.

Topics will include functional and structural characterization of protein complexes in the respiratory chain. Basic ideas of

diffusion, thermodynamics and kinetics will be discussed in the context of biological processes. Fundamental concepts that

underlie biomolecular interactions will be discussed and biophysical methods that are employed for the structural analysis of

these systems will be introduced, and some examples of the recent advance in this field are also included. 到達目標 Course Goals After the course students should know how to Explain thermodynamic principles if biological energy conversion. Account for the structure of membrane protein complexes for electron and proton transfer in the respiratory chain and

photosynthesis. Account for processes of electron and proton transport proteins in the respiratory chain and photosynthesis. Account for the mechanisms of energy converting systems in living organisms. Understand spectroscopic and other physical and analytical methods for studying membrane processes. Understand modern biophysical methods to study molecular mechanisms in respiration system.

授業計画 Course Schedule 1. Introduction and Guidance 2. History, Peter Mitchell and Chemiosmotic Theory 3. Protons, Other Ions and Membranes 4. The Respiratory Chain, Complexes I, III, IV; Reduction of O2 5. Proton Transfer in Biology (Grotthuss Mechanism); Kinetics 6. Electron Transfer in Biology (Bacterial Photosynthesis) 7. Recent Advance of Biophysics in Bioinorganic Chemistry -1 8. Recent Advance of Biophysics in Bioinorganic Chemistry -2 準備学習 (予習・復習)等の内容と分量 Homework Short essay will be assigned at the end of each lecture. 成績評価の基準と方法 Grading System The final grade corresponds to a weighted average of the results of the essays (40%) and two reports on the lectures of

"Recent Advance of Biophysics in Bioinorganic Chemistry" (60%).

テキスト・教科書 Textbooks No textbook required. Handouts will be distributed.

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G130 研究室のホームページ Websites of Laboratory https://www.su.se/english/profiles/brzez-1.181925 備考 Additional Information

095122 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Molecula r Chemist ry and Engineering IIA - 2020[ Leading and Advanced Molecular Chemis try an d Enginee ring IIA - 202 0] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Molecular Chemistry and Engineering IIA - 2020 責任教員 Instructor 大熊 毅 [Takeshi OHKUMA] (大学院工学研究院) 担当教員 Other Instructors Xiaoguang LEI (Peking University) 開講年度 Year 2020 時間割番号 Course Number 095122 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words product, total synthesis, biosynthesis, enzymology, chemical biology, drug discovery 授業の目標 Course Objectives Structurally complex and bioactive natural products provide tremendous opportunities to shape the landscape of organic

synthesis, as well as to impact the biomedical research and drug discovery. This course will provide you the latest natural

product research at the interface between chemistry and biology, by highlighting not only the new strategies in natural product

synthesis, but also the new discoveries in natural product biosynthesis and chemical biology studies of using natural product

derived chemical probes to elucidate their molecular mechanisms of the important biological pathways, and to develop novel

therapeutic agents for currently intractable diseases. From a number of lectures, the students will gain many new knowledge of

natural product total synthesis, biosynthesis, chemical biology studies and drug discovery. They will get inspirations and

appreciation of natural product research.

到達目標 Course Goals 1. The students will understand the importance of natural product research. 2. The students will appreciate the natural product total synthesis and gain some new knowledge of organic synthesis,

especially the new synthetic methodologies. 3. The students will gain the fundamental knowledge of chemical biology and appreciate the endeavors of using natural

products to discover new biology. 4. The students will understand some basic approaches in studying natural product biosynthesis and enzymology. 5. The students will get some inspiration of how to use natural product in drug discovery. 授業計画 Course Schedule 1. Classics in natural product research 2. Recent progress in natural product total synthesis 3. Basic approaches in studying natural product biosynthesis 4. Chemical biology studies using natural products 5. Natural product-enabled drug discovery 6. Research works from Lei Group

準備学習 (予習・復習)等の内容と分量 Homework Students need the preparation for discussion about natural product total synthesis and chemical biology. You will be asked to write two pages (A4) of report at the end of each lecture. 成績評価の基準と方法 Grading System Assignment on a special subject regarding to "The Chemistry and Biology of Natural Products" (60%). In addition, we also consider it as the important factor for assessment how actively students participate in each class (40%) テキスト・教科書 Textbooks No textbook required. Handouts will be distributed.

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G061 研究室のホームページ Websites of Laboratory http://www.chem.pku.edu.cn/leigroup/ 備考 Additional Information

095123 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Molecula r Chemist ry and Engineering IIB - 2020[ Leading and Advanced Molecular Chemis try a nd Enginee ring IIB - 20 20] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Molecular Chemistry and Engineering IIB - 2020 責任教員 Instructor 澤村 正也 [Masaya SAWAMURA] (大学院理学研究院) 担当教員 Other Instructors Chun-Yu Jason HO (Southern University of Science & Technology) 開講年度 Year 2020 時間割番号 Course Number 095123 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Organometallics, Organic Chemistry, Nickel Catalysis, Carbocycles, Industrial Chemistry 授業の目標 Course Objectives Efficient synthesis of higher substituted alkenes from industrial chemical feedstock is very important in many different aspects,

such as new poly(olefins) and fine chemicals applications, which is so-called "olefin economy". Organometallic chemistry plays

a very significant role in this field and there is always a great demand of developing new catalysts and methodology for that,

especially in hope to obtain new scopes, higher efficiency and selectivity by using simple olefins and alkynes as starting

materials. From the lectures, we will discuss the recent advances by using transition metal catalysts and new ligand design

reported by academic research groups and industries. For instance, how to compete with known side reactions and how to

achieve high chemo-/regio-selectivity by using new NHC-Ni hydroalkenylation catalyst designs and conditions. In addition,

we will cover a number of complementary olefin synthesis technology, their advantages and limitations at this stage. Finally,

their potential applications in asymmetric synthesis will be illustrated.

到達目標 Course Goals By the end of this course, you will be able to: 1/ understand the importance of higher substituted alkene synthesis and the

role of organometallic chemistry in the field. 2/ point out the state-of-the-arts and the limitations in the field. 3/ tell the basis of achieving high catalytic efficiency and

chemo-/regio-selectivity. 4/ tailor-made a possible method and design for higher substituted olefins of their interest. 授業計画 Course Schedule The first part of the course will focus on the traditional as well as modern technology in higher olefin synthesis by transition

metal catalysis, such as hydrovinylation and olefin metathesis in general; The second part of the course will focus on the

recent advances in hydroalkenylation by using NHC-Ni catalysts; The last part of the course will discuss the potential

applications in materials and fine chemical preparations. 1/ Early olefination technology. 2/ Modern methods for internal

olefins and monosubstituted olefins synthesis by transition metal catalysts. 3/ Potential and strategy of using NHC ligand as

tool for new scope, high efficiency and selectivity. 4/ Potential applications in asymmetric synthesis. 準備学習 (予習・復習)等の内容と分量 Homework Students need preparation for discussion about organometallic chemistry.

成績評価の基準と方法 Grading System Assignment on a specified subject regarding to "Development of higher substituted olefin synthesis methodology by transition

metal catalysts" (60%). In addition, we also consider it as the important factor for assessment how actively students participate in each class (40%).

テキスト・教科書 Textbooks No textbook required. Handouts will be distributed. 講義指定図書 Reading List Organotransition metal chemistry : from bonding to catalysis／Hartwig, John F.：University Science Books，2010 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G103 研究室のホームページ Websites of Laboratory http://chem.sustc.edu.cn/index.php/staff/details/tid/13.html 備考 Additional Information

095124 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Molecula r Chemist ry and Engineering IIC - 2020[ Leading and Advanced Molecular Chemistry and Enginee ring IIC - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Molecular Chemistry and Engineering IIC - 2020 責任教員 Instructor 村越 敬 [Kei MURAKOSHI] (大学院理学研究院) 担当教員 Other Instructors Eric Wei-Guang DIAU (National Chiao Tung University) 開講年度 Year 2020 時間割番号 Course Number 095124 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Physical Chemistry, Spectroscopy, Photochemistry, Femtochemistry 授業の目標 Course Objectives This course aims to assist the students to understand the fundamental concepts for the photochemistry and photophysics-

related phenomena including electronic structures and transitions, potential energy surfaces, radiative and non-radiationless

transitions, energy and electron transfers as well as some photovoltaic and photocatalysis applications related to

photochemistry.

到達目標 Course Goals To provide the scientific background for the students to understand the basic principles on photochemistry at the molecular

level and further apply these principles on applications of solar cells and photocatalysis.

授業計画 Course Schedule 1. Electronic configuration and term symbol of molecules 2. Transitions between states 3. Radiative and nonradiative transitions 4. Experimental techniques 5. Applications on photovoltaics and photocatalysis

準備学習 (予習・復習)等の内容と分量 Homework The basic parts of a Physical Chemistry textbook covering the sections of Quantum Chemistry, Spectroscopy and Kinetics and

Dynamics. 成績評価の基準と方法 Grading System One final written exam will be given to students for the grading.

テキスト・教科書 Textbooks Principles of molecular photochemistry : an introduction／Nicholas J. Turro, V. Ramamurthy, J.C. Scaiano：University Science

Books，2009 講義指定図書 Reading List Molecular fluorescence : principles and applications／Valeur, Bernard：Wiley-VCH，2002 Principles of fluorescence spectroscopy／Joseph R. Lakowicz：Kluwer Academic/Plenum，1999 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G049 研究室のホームページ Websites of Laboratory http://diau08.ac.nctu.edu.tw/ 備考 Additional Information

095125 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Molecula r Chemist ry and Engineering IIIA - 2020[ Leading and Advanced Molecular Chemis try a nd Enginee ring IIIA - 20 20] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Molecular Chemistry and Engineering IIIA - 2020 責任教員 Instructor 髙橋 啓介 [Keisuke TAKAHASHI] (大学院理学研究院) 担当教員 Other Instructors 開講年度 Year 2020 時間割番号 Course Number 095125 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Materials Informatics, Chemoinformatics, Data Science, Machine Learning, Chemistry, Materials Science and Engineering 授業の目標 Course Objectives *Introduce the concept of materials informatics and its current status in the research community *Teach the fundamentals of constructing data-based environments *Teach the fundamentals of using Linux OS systems and working fundamentals of the Python programming language with

subsequent applications of said skills towards solving real issues faced by industry, chemistry, and materials science and

engineering communities *Teach how to apply Python programming in combination with data science skills (machine learning, data preprocessing, data

visualization, and multivariate analysis) with focus on Python libraries "pandas", "scikit-learn", "matplotlib", "scipy", and

"numpy". *Prepare students for immediate applications of acquired skills towards research and problem-solving efforts faced by the

chemistry and materials science and engineering communities using real chemical and materials science data

到達目標 Course Goals *Impart knowledge and elementary skills of materials informatics with the goal of being able to immediately apply obtained

skills upon course completion. *For students to understand the workflow from chemical and material data towards knowledge extraction and representation.

授業計画 Course Schedule Lecture 1: Introduction – Data Science in Chemistry and Materials Science and Engineering -History and the current status of Materials Informatics. -Introduction of Data Science including data science environment, machine learning, and scientific visualization Lecture 2: Introduction of Linux OS and Python Programming 1 -Introduction of Linux Operating System for Data science applications. Ubuntu based system is introduced. -Setting up data science environments in Linux System -Overview of the Python programming language and its basic syntax. Lecture 3: Python Programming 2 and Module -Introducing List, dictionary, and loop -Basic concepts of Python moduli (matplotlib, scipy, numpy, pandas, scikit-learn) -Basic scientific computing using scipy and numpy Lecture 4: Basic Data Preprocessing and Visualization -Data preprocessing and management using pandas libraries -Basic scientific plotting using matplotlib libraries Lecture 5: Advanced Data Visualization -Multi-Dimension Visualization (Parallel Coordinates, Radviz, NetworkX) Lecture 6: Machine Learning 1 -Supervised Machine Learning (Regression and Classification) Lecture 7: Advanced Machine 2 -Unsupervised Machine Learning (Clustering, Gaussian Mixture Model, Principle Component Analysis) Lecture 8: Applications in Chemistry and Material Data -Combining all data science techniques in order to analyze current chemical and materials data

準備学習 (予習・復習)等の内容と分量 Homework N/A 成績評価の基準と方法 Grading System Assignments or in-class quizzes which will be determined by the progress of the lectures (60%). Assessment of how actively students participate in each class (40%). テキスト・教科書 Textbooks No textbook 講義指定図書 Reading List Reading materials are provided within the class.

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G014 研究室のホームページ Websites of Laboratory http://catalystinfo.eng.hokudai.ac.jp/index.html 備考 Additional Information Required Equipment for a class (Laptop, etc.) Laptop (Preferred to have Linux Ubuntu based OS)

095126 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IA - 2020[ Leading and Advanced Mate rials Chemistry and Enginee ring IA - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IA - 2020 責任教員 Instructor 忠永 清治 [Kiyoharu TADANAGA] (大学院工学研究院) 担当教員 Other Instructors Franklin JARAMILLO (University of Antioquia),

三浦 章(工学研究院), NATALY CAROLINA ROSERO NAVARRO(工学研究院) 開講年度 Year 2020 時間割番号 Course Number 095126 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words energy conversion devices, energy storage devices, solar cells, all nano-structures, solid state batteries 授業の目標 Course Objectives Recently, safe, low cost, and highly efficient energy conversion and storage devices are highly required for achieving clean

energy and clean environment. Development of novel materials and morphology control of the materials for these devices are

key issues. The aim of this course is to describe the importance of materials science involved in the development of such

energy conversion and energy storage devices. Fundamentals concepts in energy conversion and energy storage are firstly

overviewed, and then the materials chemistry for the energy conversion and energy storage devices will be described. As a

energy conversion device, solar cells, including the cell using hybrid organic-inorganic perovskite materials will be described.

Preparation and application of semiconductor using solution process and characterization of opt-electronic thin films will also

be described. In addition, preparation process for materials of electrochemical devices, development of all solid-state lithium

secondary batteries are described. 到達目標 Course Goals By the end of this course you will be able to 1. explain and compare the electrochemical energy conversion and storages systems 2. understand the basic requirements for materials used in energy conversion and energy storage devices 3. explain the effects of nanostructures on the properties of devices 4. understand and discuss materials for clean energy and clean environment 授業計画 Course Schedule Following topics will be covered during this course 1. Introduction to nanostructured energy devices 2. Third generation solar cells 3. Hybrid organic-inorganic metal halide perovskite materials and applications 4. Solution processing of semiconductors 5. Characterization of opto-electronic thin films 6. All-solid-state lithium/sodium secondary batteries 7. Overview of recent trends in materials for electrochemical devices and future energy storage system 8. Students presentation on topics in energy devices

Part of lectures will be given by Professor Franklin JARAMILLO, University of Antioquia. 準備学習 (予習・復習)等の内容と分量 Homework Students will be expected to receive class notes in the first lecture and read designated chapter in advance. Students should read some papers on energy conversion devices during this course and make presentation. 成績評価の基準と方法 Grading System Grade will be determined by how well one’s achievement in this course through 1. a report on nanostructured materials in energy conversion of energy storage devices (weightage 80%), and 2．a presentation on one’s research or some topics in energy storage or energy conversion devices (weightage 20%) テキスト・教科書 Textbooks No textbook required. Handouts will be distributed. 講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G037 研究室のホームページ Websites of Laboratory http://www.udea.edu.co/wps/portal/udea/web/inicio/investigacion/grupos-investigacion/ingenieria-tecnologia/cidemat/ 備考 Additional Information

095127 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IB - 2020[ Leading and Advanced Mate rials Chemistry and Enginee ring IB - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IB - 2020 責任教員 Instructor 三浦 章 [Akira MIURA] (大学院工学研究院) 担当教員 Other Instructors Wenhao SUN (University of Michigan), 忠永 清治(工学研究院) 開講年度 Year 2020 時間割番号 Course Number 095127 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Materials, computational, data analysis 授業の目標 Course Objectives 1. To teach students the principles of data-driven scientific research and engineering. 2. To teach students how to leverage their material science and engineering domain knowledge in the design of data-driven

materials science research projects. 3. To familiarize students with the opportunities and challenges of big-data problems in materials science and engineering. 4. To teach students how to design and write Python programs to execute data-driven research in MSE. 5. To teach students how to extract knowledge from big materials data, using statistical methods, unsupervised and supervised

machine-learning techniques. 到達目標 Course Goals Learn how to use Python to access and extract big-data from large-scale materials databases, and how to design and execute

a data-driven research project in MSE. Leatn the state-of-the-art methods in statistical analysis, supervised and unsupervised machine-learning, and data

visualization. Learn emerging methods in ‘Big’ MSE Data, including high-throughput computation, laboratory automation, literature text-

mining, and reinforcement learning. 授業計画 Course Schedule This course is given by Prof Wenhao Sun in Michigan University together with Profs. Miura and Tadanaga.

Introduction + Classic Examples: Periodic Table, Pettifor Maps, Ashby Diagrams, Ternary Structure Maps. Recent Examples: Survey of Big-Data Materials Science Publications Data Exploration: Interactive Python Data Visualization (Plotly, Bokeh) Unsupervised Machine Learning: Clustering, Dimensionality Reduction Supervised Machine Learning: Classification, Regression Execution: Database Infrastructure. API/REST interfaces. Python Data Visualization High-Throughput Computation, Computational Materials Design 準備学習 (予習・復習)等の内容と分量 Homework N/A 成績評価の基準と方法 Grading System Assignments or in-class quizzes which will be determined by the progress of the lectures (60%). Assessment of how actively students participate in each class (40%). テキスト・教科書 Textbooks No textbook 講義指定図書 Reading List Reading materials are provided within the class.

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G046 研究室のホームページ Websites of Laboratory https://wenhaosun.github.io/ 備考 Additional Information Required Equipment for a class (Laptop, etc.) Laptop

095128 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering II - 2020 [Leading and Advanced Ma terials Chemist ry and Engineering I I - 2020 ] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering II - 2020 責任教員 Instructor 村越 敬 [Kei MURAKOSHI] (大学院理学研究院) 担当教員 Other Instructors Dechen JIANG (Nanjing University) 開講年度 Year 2020 時間割番号 Course Number 095128 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Electrochemistry, Microscopy, Mass spectroscopy, Life science 授業の目標 Course Objectives By the end of this course you will be able to ; 1. understand the basic principle of recently developed instrumental analysis, and their applications in the analysis of life

science 2. develop critical reading, writing and presentation skills for the research.

到達目標 Course Goals You will be able to; 1. discuss about the recent applications of these techniques. 2. give a presentation about the method for state-of-art techniques. 3. give the solutions about the selected measurements needed for life sciences. By attendgin the course.

授業計画 Course Schedule Lecture I: Electrochemistry and electrochemical microscopy Lecture II: Optical microscopy Lecture III: Mass spectroscopy Lecture IV: Applications in single cell analysis Seminar: Single-cell kits based electro-analysis

準備学習 (予習・復習)等の内容と分量 Homework to be announced.

成績評価の基準と方法 Grading System Your grade will be determined by how well you demonstrate your achievement of the course goals through 1. Daily course discussions. 20%. 2. Short presentation. 40%. 3. Brief solutions for the real problems in life sciences. 40% テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G027 研究室のホームページ Websites of Laboratory

備考 Additional Information Required Equipment for a class (Laptop, etc.) Laptop

095129 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IIIA - 2020[ Leading and Advanced Mate rials Chemistry and Engine ering IIIA - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IIIA - 2020[Leading and

Advanced Materials Chemistry and Engineering IIIA - 2020] 責任教員 Instructor 長谷川 靖哉 [Yasuchika HASEGAWA] (大学院工学研究院) 担当教員 Other Instructors 北川 裕一(工学研究院) 開講年度 Year 2020 時間割番号 Course Number 095129 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Chemical Information, elemental analysis, conditional analysis, structural analysis in nano- and micro-area. 授業の目標 Course Objectives Grounding in physical, organic and inorganic chemistry. In this course, instrumentation chemistry containing elemental analysis, configurational analysis, structural analysis in nano-

and micro-area are introduced. Based on their studies, students learn fundamental knowledges and various information about

chemical analysis of organic and inorganic materials.

到達目標 Course Goals Students learn principle, variety and characterization of instrumentation chemistry for material analysis. Based on

instrumentation chemistry containing elemental analysis, configurational analysis, structural analysis in nano- and micro-area,

students make the most of their knowledges for construction of their chemical research. 授業計画 Course Schedule 1-2. introduction of instrumentation chemistry: importance for structural analysis on the material surface, classification of

chemical instruments, grounding in highvacuum engineering 3. configurational analysis (TEM, SEM, AFM, STM） 4. elemental analysis (AES, EPMA, XPS, XRF） 5. structural analysis (XRD, EXAFS, HEED, LEED, SAXS) 6. photo-physical analysis (UV-Vis absorption spectra, fluorescence and phosphorescence spectra, emission lifetime, Raman

spectra) 7. MS spectral analysis (EI-MS, CI-MS, ESI-MS, MALDI-MS, SIMS) 8. examination 準備学習 (予習・復習)等の内容と分量 Homework Pre-examination for review of instrumentation chemistry 成績評価の基準と方法 Grading System The attendance rate must be over 70% to be qualified to take the final exam. Evaluations will be made based on (1) learning

attitude (20%), (2) exercise (10%), (3) final examination scores (70%).

テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G007 研究室のホームページ Websites of Laboratory https://www.eng.hokudai.ac.jp/labo/amc/index.html 備考 Additional Information

095130 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IIIB - 2020[ Leading and Advanced Mate rials Chemistry and Engine ering IIIB - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IIIB - 2020 責任教員 Instructor 安住 和久 [Kazuhisa AZUMI] (大学院工学研究院) 担当教員 Other Instructors 開講年度 Year 2020 時間割番号 Course Number 095130 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Metallic Materials; Complex Materials; Functional Materials; Corrosion Protection. 授業の目標 Course Objectives Degradation of materials used in many structures and functional devices is a very important issue to sustain and develop our

modern society. Understanding the degradation mechanism, predicting the lifetime of materials, and suppressing the corrosion

is, therefore, one of the major subjects of engineering. In the lecture, a theory of corrosion phenomena, examples of typical

corrosion and degradation, strategies of corrosion protection, development of degradation resistive materials, and evaluation

methods of corrosion rate and lifetime will be introduced.

到達目標 Course Goals ・Understanding the practical corrosion phenomena based on physical chemistry ・Learning how to treat the corrosion-related phenomena quantitatively. ・Understanding the engineering techniques applicable to various practical problems. 授業計画 Course Schedule 1. Introduction: Importance of corrosion phenomena and corrosion protection. 2. Theories in corrosion science: Local cell model of corrosion reaction, the kinetics of electrode reaction, thermodynamics of

the corrosion phenomena and Paurbaix diagrams, the concept of passivity, determination methods of corrosion rate including

Tafel’s law, DC polarization method and AC impedance method. 3. Classification of practical corrosion: Characteristics of uniform corrosion, galvanic corrosion, crevice corrosion, pitting

corrosion, grain boundary corrosion, selective corrosion, erosion-corrosion, stress corrosion cracking, hydrogen

embrittlement, and high-temperature corrosion. 4. Corrosive environments: Characteristics of various corrosion environments as moisture (water system), air, soil, concrete,

(micro)bio-system, dew point corrosion, corrosion in oil and natural gas, corrosion inside the electronic devices, and so on. 5. Corrosion protection: Corrosion resistive materials (characteristics of carbon steel, low-alloy steels, stainless steels,

titanium, aluminum, copper, and amorphous alloys), methodological approaches (coating, lining, and inhibitors).

準備学習 (予習・復習)等の内容と分量 Homework Students are expected to read the text booklet before and after the lecture. Students are also required to put in a report for

every lecture. 成績評価の基準と方法 Grading System Reports (homework is given at each lecture) (60%), contribution to the discussion at the class (40%). テキスト・教科書 Textbooks Textbook will be provided via ftp site that will be announced at the beginning of the class. 講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G004 研究室のホームページ Websites of Laboratory https://www.eng.hokudai.ac.jp/labo/elemat/Welcome.html 備考 Additional Information Basic knowledge of thermodynamics and electrochemistry are required.

095131 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IIIC - 2020 [Leading and Advanced Mate rials Chemist ry and Engineering IIIC - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IIIC - 2020 責任教員 Instructor 島田 敏宏 [Toshihiro SHIMADA] (大学院工学研究院) 担当教員 Other Instructors 開講年度 Year 2020 時間割番号 Course Number 095131 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words electronic materials and devices, thermoelectrics, solar cells, hard materials, solid state physics 授業の目標 Course Objectives The first goal is to understand the "heart" of chemistry and physics of solid state functional materials and obtain the ability to

design and crate new materials. The second goal is to understand what is written in literature with theoretical description. The

lecture and the homeworks will be organized to achieve this goal.

到達目標 Course Goals By the end of this course you will be able to 1. Explain how the devices explained in the lecture works. 2. Obtain basic knowledge of solid state materials 3. Read advanced literature about the related topics.

授業計画 Course Schedule Topics other than the following list can also be lectured according to request. 1. Introduction to solid state chemistry / physics and thermoelectricity 2. Semiconductors focused on solar cells 3. Transparent conductors (oxides, nanowires, graphene) 4. Advanced ligand field theory and basics of photophysics - lasers, nonlinear optics, optical fibers 5. Interfaces: workfunction and chemistry of semiconductor junction devices 6. Phase memory materials (DVD-R/W, shape memory alloys) 7. Ferroelectrics and shape memory alloy 8. Superconductivity elated theoretical concepts will be introduced every time. 準備学習 (予習・復習)等の内容と分量 Homework Preparation: read the handout posted on the website (URL will be given at the first lecture). Homework: solve the problem given in the lecture and write a brief final report.

成績評価の基準と方法 Grading System Grading is based on the quiz given at each lecture and the final report.

テキスト・教科書 Textbooks None 講義指定図書 Reading List Handout will be given prior to the lecture via website. 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G062 研究室のホームページ Websites of Laboratory https://www.eng.hokudai.ac.jp/labo/kotai/ 備考 Additional Information

095132 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering IIID - 2020 [Leading and Advanced Mate rials Chemistry and E ngineering IIID - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IIID - 2020 責任教員 Instructor 忠永 清治 [Kiyoharu TADANAGA] (大学院工学研究院) 担当教員 Other Instructors 打越 哲郎(物質・材料研究機構), 武田 隆史(物質・材料研究機構) 開講年度 Year 2020 時間割番号 Course Number 095132 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Nanoparticle, Functional inorganic material, Bulk material, Materials processing, Nanostructural analysis, Functional

characterization 授業の目標 Course Objectives The relation between the functionality of materials, especially inorganic functional materials, and their electronic state,

nanostructure and macroscopic form such as bulk will be lectured. The appearance mechanism of various functionality obtained

by controlling the composition and microstructure of the materials, the processing methods of functionality-designed materials

and the characterization techniques of the materials will be addressed. The prospects for industrial application in the future

will be discussed by taking up some topics, including the synthesis of nanoparticles and nanocomposites and the synthesis of

phosphor materials for white LEDs.

到達目標 Course Goals The relation between the materials properties and nano/micro-structures drawing the required functions to the maximum will

be understood. In addition, the basic science and skills for materials processing and analysis will be mastered. The task to find

a topic for oneself and to investigate it will be given to the students as training to select and treat information scientifically.

授業計画 Course Schedule The following contents will be lectured using the documents edited for the class by the lecturers: 1.Introduction: Structure and functionality of nanomaterials. 2.Processing technique: Powder synthesis via gas, liquid or solid phase reaction and processing chemistry of bulk materials. 3.Property and characterization: Characterization of particle and powder, nano-micro-macro structure of bulk materials.

Evaluation of electric, electrochemical, magnetic, optical, mechanical and catalytic properties. 4.Summary: Industrial application and future prospects of nanoscience and nanotechnology. Role and the possibility of

nanomaterials in the sustainable society. 準備学習 (予習・復習)等の内容と分量 Homework Students will be expected to receive class notes in the first lecture and read designated chapter in advance. Review the distributed documents and blackboard demonstration contents during class, and ask any questions at the next

class. 成績評価の基準と方法 Grading System Your attitude and contribution in classes (20%) and reports (80%) will affect your final grade. テキスト・教科書 Textbooks No textbook required. Handouts will be distributed. 講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G125 研究室のホームページ Websites of Laboratory https://www.nims.go.jp/hokudai/research_kagaku.html 備考 Additional Information

095133 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced Mat erials Chemist ry and Engineering III E - 2020[L eading and Advanced Ma terials Chemis try and Enginee ring IIIE - 2020 ] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Materials Chemistry and Engineering IIIE - 2020 責任教員 Instructor 村越 敬 [Kei MURAKOSHI] (大学院理学研究院) 担当教員 Other Instructors 吉尾 正史(物質・材料研究機構), 増田 卓也(物質・材料研究機構) 開講年度 Year 2020 時間割番号 Course Number 095133 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Molecular self-assembly, Electrode/electrolyte interfaces, In situ characterization 授業の目標 Course Objectives This course is designed to acquire basic knowledge in functional materials chemistry including self-assembly, solid state

chemistry, energy band structure, and surface/interface nanostructures, which are essential for the research and development

of functional materials. Approaches in design and construction of materials in nano, micro and macroscales will also be

introduced for exploring ion-, electron-, and photo-functionalities of materials.

到達目標 Course Goals Students will gain not only knowledge of materials design, synthesis and characterization, which form the basis of functional

materials chemistry, but also acquire problem-solving ability for exploring functionality of materials. 授業計画 Course Schedule (1) Basics of photo functional materials and photocatalyst (2) Band structure of oxide semiconductor (3) Design and synthesis of photocatalyst (4) Characterization of photocatalyst (5) Application of photocatalyst (6) Basics of superconductivity, ferroelectricity, and ferromagnetism (7) Design and synthesis of superconducting, ferroelectric, and magnetic materials (8) Characterization of superconducting, ferroelectric, and magnetic materials In FY2020, this course provides overviews and up-to-date solid state chemistry with an emphasis on the some topics from (1)

to (8).

準備学習 (予習・復習)等の内容と分量 Homework To read text books for solid state chemistry and crystallography at undergraduate level is highly recommended.

成績評価の基準と方法 Grading System Assignment on a specified subject regarding to "Solid State and Surface/Interface Nano Chemistry" (60%).In addition, we also

consider it as the important factor for assessment how actively students participate in each class (40%).

テキスト・教科書 Textbooks No textbook required. Handouts will be distributed. 講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G128 研究室のホームページ Websites of Laboratory https://www.nims.go.jp/hokudai/research_kagaku.html 備考 Additional Information

095134 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IA - 2020 [Leading an d Advanced B iological and Polymer Chemistry and Enginee ring IA - 20 20] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IA - 2020 責任教員 Instructor 坂口 和靖 [Kazuyasu SAKAGUCHI] (大学院理学研究院) 担当教員 Other Instructors Adrian SEROHIJOS (University of Montreal), 鎌田 瑠泉(理学研究院) 開講年度 Year 2020 時間割番号 Course Number 095134 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words protein evolution, microbial evolution, drug resistance, fitness landscape, protein engineering, evolutionary biology, population

genetics, stochastic processes 授業の目標 Course Objectives 1.To establish protein evolution as a dynamic process that is a consequence of both biochemistry and evolutionary biology 2.To establish how protein evolution is affected population structure and ecology of microbes 3.To introduce state-of-the art protein engineering approaches and their application to microbial evolution 4.To introduce integrative models of microbial evolution derived from protein biophysics 5.To demonstrate the application of these models in predicting how microbes evolve resistance against antibiotics and how

viruses evolve against antibodies

到達目標 Course Goals 1.To achieve an appreciation protein evolution as a dynamic stochastic process 2.To appreciate how protein evolution is govern by factors at different scales of biological organization (sequence, 3D

structure, cellular system, population dynamics, and ecology) 3.To appreciate the state-of-the art experimental techniques in protein engineering, microfluidics, and microbial evolution 4.To appreciate how emerging integrative models of protein evolution are applied predict how bacteria and viruses evolve

授業計画 Course Schedule Lecture 1: Fundamental concepts in protein and microbial evolution Readings: Berhstein et al. Curr Opin Struct Biol. 2017, 42:31-40; Serohijos et al. Curr Opin Struct Biol. 2014, 26:84-91;

Serohijos et al., Biophys J. 2013, 104(3):L1-3. •Fitness landscapes •Mutational drift, selection, and population size •Emerging universal results in protein evolution

Lecture 2: High-throughput protein engineering to determine adaptive fitness landscapes Readings: Fowler, Nat Methods. 2014, 11(8):801-7; Fowler, Nat Protoc. 2014, 9(9):2267-84. •Deep mutational scans (Comprehensive mutagenesis, selection, and next-gen sequencing)

Lecture 3: Predicting the evolution of microbes against antibiotics and of viruses against antibodies Readings: Rotem, Mol Biol Evol. 2018, 35(10):2390-2400. •Integrative models of protein evolution •High-throughput evolution in droplet-based microfluidics

Lecture 4: Chromosomal single cell barcoding to determine the dynamics of microbial evolution Readings: Lerner, Biorxive (https://doi.org/10.1101/571505); Levy, Nature. 2015, 519(7542):181-6; Venkataram, Cell. 2016,

166(6):1585-1596. •Single-cell barcoding •Clonal interference •Microbiome evolution

準備学習 (予習・復習)等の内容と分量 Homework Read the articles in the "Reading List"

成績評価の基準と方法 Grading System Assignment on specified topics regarding "protein evolution" and "microbial evolution" (60%); Student participation in class

(40%) テキスト・教科書 Textbooks None 講義指定図書 Reading List Berhstein et al. Curr Opin Struct Biol. 2017, 42:31-40; Serohijos et al. Curr Opin Struct Biol. 2014, 26:84-91; Serohijos et

al., Biophys J. 2013, 104(3):L1-3; Fowler, Nat Methods. 2014, 11(8):801-7; Rotem, Mol Biol Evol. 2018, 35(10):2390-2400;

Lerner, Biorxive (https://doi.org/10.1101/571505); Levy, Nature. 2015, 519(7542):181-6; Venkataram, Cell . 2016,

166(6):1585-1596. 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G010 研究室のホームページ Websites of Laboratory https://www.serohijoslab.org/ 備考 Additional Information Main Instructor: Adrian SEROHIJOS (University of Montreal)

095135 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IB - 2020 [Leading an d Advanced B iological and Polymer Chemistry and Enginee ring IB - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IB - 2020 責任教員 Instructor 佐藤 敏文 [Toshifumi SATOH] (大学院工学研究院) 担当教員 Other Instructors Redouane BORSALI (Grenoble Alpes University, CERMAV-CNRS) 開講年度 Year 2020 時間割番号 Course Number 095135 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Self-assembly, block copolymers, nanoparticles, thin films, nanolithography, electronic devices 授業の目標 Course Objectives The objectives of the course is to give a comprehensive lecture on self-assembly : from theory to experimental procedures and

data analysis - this lecture will describe the concept of self-assembly of block copolymer systems allowing to fabricate

nanoparticles and nanostructured thin films. 到達目標 Course Goals To date, numerous studies have been made on the self-assembly of petroleum-based block copolymers for potential

applications in multidisciplinary fields, such as nanoparticles for drug delivery, biosensor, nanolithography, etc. such materials

are derived from fossil resources that are being rapidly depleted and have negative environmental impacts. In contrast,

carbohydrates are abundant, renewable and constitute a sustainable source of materials. This is currently attracting much

interest in various sectors and their industrial applications at the nanoscale level will have to expand quickly in response to the

transition to a bio-based economy. To this end and to meet the challenge of the 21st century that will hopefully open new

horizons for the valorization of bio-sourced functional materials at the nanoscale level. The goals of this lecture is to give

routes on how to design and develop, using environmentally friendly processes, glyconanoparticles and ultra-high resolution

patterned nanoorganized films, obtained via the self-assembly of elementary bricks of plant-based biomaterials (glycopolymers)

for innovative high-added value applications (nanolithography, flexible opto-electronic devices, smart surfaces,…). 授業計画 Course Schedule 1st lecture: Overview of synthesis and characterization of block copolymer 2nd lecture: Self-assembly concept of block copolymer 3rd lecture: Self-assemblies of block copolymer systems: Nanoparticles (1) 4th lecture: Self-assemblies of block copolymer systems: Nanoparticles (2) 5th lecture: Self-assemblies of block copolymer systems: Thin Films (1) 6th lecture: Self-assemblies of block copolymer systems: Thin Films (2) 7th lecture: Discussion about self-assemblies of block copolymer systems 8th Seminar: Nanoparticles and ultra high resolution thin films for industrial applications 準備学習 (予習・復習)等の内容と分量 Homework Three short tests and final report. 成績評価の基準と方法 Grading System Assignment on a specified subject regarding to "SELF-ASSEMBLIES BLOCK COPOLYMER SYSTEMS". We consider it as

the important factor for assessment of three short tests (90%) and final report (10%). テキスト・教科書 Textbooks Lecture notes in PDF files will be provided. 講義指定図書 Reading List 1) Developments in Block Copolymer Science and Technology 1st Edition by Ian W. Hamley (Editor); 2) R. Borsali and R.

Pecora (Editors) “Structure and Dynamics of Polymers and Colloids”, NATO ASI Series, Kluwer Publisher Vol 568, 2002., 477 Pages ISBN:9781402005022. 3) C.

Giacomelli, V. Schmidt, K. Aissou & R. Borsali ≪ Block Copolymer Systems: From Single Chain to Self-Assembled Nanostructures ≫ Langmuir (Invited Feature

Article), 26 (20), 2010, 15734-15744; 4)1. Y. Liao, W.-C. Chen, R. Borsali* ≪ Carbohydrate-Based Block Copolymer Thin Films: Ultrafast Nano-Organization with 7 nm

Resolution Using Microwave Energy ≫ Adv. Mater., 2017, First published: 6 July 2017, DOI: 10.1002/adma.201701645). 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G120 研究室のホームページ Websites of Laboratory https://www.cermav.cnrs.fr/language/en/the-teams/physico-chemistry-and-self-assembly-of-glycopolymers/ 備考 Additional Information

095136 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IIA - 202 0[Leading a nd Advanced B iological and Polymer Chemistry and Enginee ring IIA - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IIA - 2020 責任教員 Instructor 山本 拓矢 [Takuya YAMAMOTO] (大学院工学研究院) 担当教員 Other Instructors Yu-Jane SHENG (National Taiwan U), Heng-Kwong TSAO (National Central U),

佐藤 敏文(工学研究院) 開講年度 Year 2020 時間割番号 Course Number 095136 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Colloidal phenomena, Interfacial phenomena, Molecular Simulations 授業の目標 Course Objectives Upon successful completion of this course, students should be able to acquire knowledge of the theory of colloids and

interfacial phenomena. Emphasis is placed on characteristics of colloids, light scattering, electrostatic interactions, stability of

colloids, capillary effects, surfactant adsorption, wetting phenomena and other phenomena of interest to the engineers.

Students should also learn the common experimental methods for measuring surface and interfacial tension, as well as classic

and modern theoretical models utilized for explaining colloidal forces. Furthermore, students should gain knowledge of the

basic concepts of molecular simulations and familiarize themselves with examples of the applications of simulations to nanoscale

systems. 到達目標 Course Goals The goals of the course are to: (i) provide students with a solid understanding of the essential knowledge of the theory of

colloids and interfacial phenomena; (ii) provide students with a basic knowledge of molecular simulations and their applications

to colloidal systems. 授業計画 Course Schedule (I) Colloidal phenomena 1. Characteristics of colloids, 2. Brownian motion, 3. Light Scattering 4. Electrostatic interactions (A. Electric double layer B. Electrophoresis), 5. Colloidal stability (II) Interfacial phenomena 6. Interfacial tension and Young-Laplace equation, 7. Surfactant and adsorption 8. Micelles and critical micelle concentration, 9. Emulsion and microemulsion 10. Wetting phenomena and superhydrophobicity, 11. Young’s equation and contact angle 12. Capillarity, 13. Marangoni effect (III) Molecular simulations 14. Molecular dynamics, 15. Dissipative particle dynamics, 16. Nanoscale systems Seminar topic: Total wetting surfaces and self-running droplets 準備学習 (予習・復習)等の内容と分量 Homework None 成績評価の基準と方法 Grading System three tests(100%) テキスト・教科書 Textbooks None 講義指定図書 Reading List Lecture notes in PDF files will be provided.

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G022 研究室のホームページ Websites of Laboratory http://cma.eng.hokudai.ac.jp/index.html 備考 Additional Information References suitable for this course: 1. Israelachvili, Jacob N. Intermolecular and surface forces / Jacob N. Israelachvili. 2nd ed. Academic Press London ; San

Diego, 1991. Print. 2. Foundations of colloid science by Robert J. Hunter, 2001, Oxford University Press edition, in English - 2nd ed.

095137 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IIB - 202 0[Leading a nd Advanced B iological and Polymer Chemistry and Enginee ring IIB - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IIB - 2020 責任教員 Instructor 佐藤 敏文 [Toshifumi SATOH] (大学院工学研究院) 担当教員 Other Instructors Guey-Sheng LIOU (National Taiwan University) 開講年度 Year 2020 時間割番号 Course Number 095137 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words Step-Growth Polymerization, functional polymers, high-performance polymers/metal oxides hybrids, triphenylamine (TPA),

optical, electrochromic, and optoelectronic applications. 授業の目標 Course Objectives The purpose of this course is to train graduate students to be familiar with the terminologies of polymer science and to be

knowledgeable about polymer research and development. Since polymer materials are central for the current advances of many

industrial areas including plastics/elastomers, conducting materials, optoelectronics, biomaterials, drugs, etc., the young

researchers are required to learn the correlation between polymer structures and emerging technologies. Another purpose of

the lectures is to stimulate students to think creatively and to be able of connecting and integrating their learnt knowledge to

new developments for future academic and industrial research. 到達目標 Course Goals This course aims to be a comprehensive, authoritative, and general interest to the polymer chemistry and provides the

understanding on (i) high-performance polymers and their representative nanocomposites (ii) specific functionality and its

relations to molecular structures, and characterization skills of these advanced functional polymers. Get knowledge on (1) How

to prepare and characterize the high-performance polymers and their hybrid films via sol-gel approaches and their related

application; (2) A variety of strategies and approaches for obtaining the high-performance polymers with different specific

functions; (3) The characterizations and relationships between the structural units and functions in the polymer chains and the

investigation of some advanced applications in terms of their unique functionality. Overall, to build up the background in polymers with a structure of distinct functional groups (responsive to a stimulus) which

may consequently express unique physical or chemical properties and additional functions from synthesis to practical

applications; from chemistry to physics (optics and electronics) and different applications. 授業計画 Course Schedule 1st lecture: Fundamental concept/meaning of polymer chemical structures via different Step-Growth Polymerizations for

building up the background in polymers with a structure of distinct functional groups (responsive to a stimulus) 2nd lecture: High performance and specialty polymers in aspects of polymerization and structural design for various specific

functional materials from synthesis to practical applications 3rd lecture: Strategies and approaches for obtaining the high-performance polymers for electronic, optoelectronic and different

applications from chemistry to physics (optics and electronics) 4th lecture: Polymer/nanoparticle hybrids for optical, electrochromic, and optoelectronic applications Seminar: lectures: Redox-Active and AIE-Active Functional Materials for Optoelectronic Applications Covers and summarizes the fundamentals of representative high-performance polymers in conjunction with recent development

of triphenylamine (TPA)-based advanced materials for various optoelectronic applications, such as electrochromic,

electrofluorochromic, and polymeric memory devices that are also appealing to those who are interested in the general areas of

photo-physical chemistry, electrochemistry, polymer chemistry, as well as their practical applications. 準備学習 (予習・復習)等の内容と分量 Homework Three short tests and final report. 成績評価の基準と方法 Grading System Assignment on a specified subject regarding to "Design, Synthesis and Applications of Functional Polymers via Step-Growth

Polymerization". We consider it as the important factor for assessment of three short tests (90%) and final report (10%). テキスト・教科書 Textbooks Lecture notes in PDF files will be provided. 講義指定図書 Reading List ●Design and preparation of triphenylamine-based polymeric materials towards emergent optoelectronic applications (Prog.

Polym. Sci., 89, 250-287 (2019) ●Highly transparent polyimide hybrids for optoelectronic applications (React. Funct. Polym., 2016, 108, 2-30) ●Triarylamine-based high-performance polymers for resistive switching memory devices (Polymer Journal, 2016, 48, 117?138) 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G095 研究室のホームページ Websites of Laboratory http://www.pse.ntu.edu.tw/members/bio.php?PID=6 備考 Additional Information

095138 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IIC - 20 20[Leading and Advanced B iological and Polymer Chemistry and E ngineering IIC - 2020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IIC - 2020 責任教員 Instructor 佐藤 敏文 [Toshifumi SATOH] (大学院工学研究院) 担当教員 Other Instructors Akira HIRAO (National Taiwan University) 開講年度 Year 2020 時間割番号 Course Number 095138 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words living anionic polymerization, macromolecular architecture, multiphase polymers, nanostructure, surface structure 授業の目標 Course Objectives Multiphase macromolecular architectures such as block, graft, star-branched, and dendrimer-like hyperbranched polymers are

very important polymeric materials at the present time from viewpoints of not only industrial uses in practice, but also future

nanomaterials essential in nanoscience and nanotechnology including information and bio-related fields, which have now been

rapid advanced. In order to understand these hot areas in the update polymer science by the course students, how to precisely

synthesize such polymers by means of living anionic polymerization, importance of their well-defined and controlled structures,

how to influence their 3D morphological nanostructures produced in bulk, selected solvents, and at surface on practical uses

and future potential applications will be presented. 到達目標 Course Goals On successful completion of this course, the course students will understand, 1) Synthetic methodologies of various

architectural polymers with well-defined structures using living polymerization systems and 2) Behavior and influences of 3D

long-range morphological nanostructures produced from such polymers in bulk, selected solvents, and at surface on practical

uses and future potential applications in nanoscience and nanotechnology. Once again, such subjects introduced in this course

belong one of the hottest areas in the present polymer science and, therefore, are expected to become useful and stimulate in

the student researches. 授業計画 Course Schedule 1st lecture: Overview of living polymerization systems and advantages of living anionic polymerization over other living

polymerization systems 2nd lecture: 3D long-range morphological nanostructures produced in bulk, selected solvents, and at surface: 1) Polymer blends vs. multiphase polymers, 2) Polymer surface structures and their behavior, and 3) Hybrid materials among organic polymers and inorganic or metallic compounds 3rd lecture: Molecular design and precise syntheses of block and graft polymers with well-defined structures by means of living

anionic polymerization 4th lecture: Molecular design and precise synthesis of star-branched and dendrimer-like hyperbranched polymers with well-

defined structures by means of living anionic polymerization Seminar: Precise Synthesis of Tri- and More Block Polymers with Unusual Sequential Order by Living Anionic Polymerization 準備学習 (予習・復習)等の内容と分量 Homework Three short tests and final report. 成績評価の基準と方法 Grading System Assignment on a specified subject regarding to "Molecular Design and Precise Synthesis of Macromolecular Architectures".

We consider it as the important factor for assessment of three short tests (30%) and final report (70%). テキスト・教科書 Textbooks Lecture notes in PDF files will be provided. 講義指定図書 Reading List ●Polymers, (2017), 9(10), 470/1-470/30 (https://www.mdpi.com/2073-4360/9/10/470) ●Progress in Polymer Science , 2002, 27, 1399-1471; 2007, 32, 1393-1438; 2011, 36, 323-375, ●Polymer Chemistry , 2014, 5, 5523-5534; 2011, 2, 1219-1233, ●Macromolecules 2014, 47, 1883-1905 参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G073 研究室のホームページ Websites of Laboratory http://poly-ac.eng.hokudai.ac.jp/index.html 備考 Additional Information

095139 先端総合化学特論Ⅱ [Moder n T rends in Chemical Sciences a nd Enginee ring II] Leading and Advanced B iological and Polymer Chemis try and Enginee ring IIIA - 202 0[Leading a nd Advanced B iological and Polymer Chemistry and Enginee ring IIIA - 2 020] 科目名 Course Title 先端総合化学特論Ⅱ[Modern Trends in Chemical Sciences and Engineering II] 講義題目 Subtitle Leading and Advanced Biological and Polymer Chemistry and Engineering IIIA - 2020 責任教員 Instructor 村上 洋太 [Yota MURAKAMI] (大学院理学研究院) 担当教員 Other Instructors 髙岡 晃教(遺伝子病制御研究所) 開講年度 Year 2020 時間割番号 Course Number 095139 期間 Semester 集中 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7121 補足事項 Other Information

キーワード Key Words cell growth and differentiation, gene expression, epigenetics, signal transduction, oncogene, immunity, infectious disease 授業の目標 Course Objectives The class focuses on fundamental aspects of molecular mechanisms that underlie basic biological phenomena such as cell

growth, cell differentiation and immunity. In addition, how disorder of the regulatory mechanism causes diseases including

cancer and infectious disease will be discussed.

到達目標 Course Goals Students to be able to understand the basic regulatory mechanisms of gene expression, cell growth and immune system and

developing mechanisms for the related diseases. 授業計画 Course Schedule (1) Regulatory mechanisms for gene expression during cell differentiation: Transcription factor, Transcription factor network,

Chromatin structure (2) Signal transductions in the host defense system: Signaling pathways to activate immune responses and molecular

pathogenesis underlying infectious diseases and immunodeficiency, cross-interaction between host and microbes 準備学習 (予習・復習)等の内容と分量 Homework Students are expected to review the material provided by the instructors.

成績評価の基準と方法 Grading System 20%: class participation, 80%: examination テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites https://hokkaidosummerinstitute.oia.hokudai.ac.jp/courses/CourseDetail=G034 研究室のホームページ Websites of Laboratory

備考 Additional Information

095151 総合化学特別研究第二 [Research in Chemical Scienc es and E ngineering II ] 科目名 Course Title 総合化学特別研究第二[Research in Chemical Sciences and Engineering II] 講義題目 Subtitle 責任教員 Instructor 村上 洋太 [Yota MURAKAMI] (大学院理学研究院) 担当教員 Other Instructors 開講年度 Year 2020 時間割番号 Course Number 095151 期間 Semester 通年不定期 単位数 Number of Credits 1 授業形態 Type of Class 講義 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7131 補足事項 Other Information

キーワード Key Words 物理化学，無機分析化学，有機化学，生物化学，物質化学，有機プロセス工学，生物機能高分子 授業の目標 Course Objectives 外国人を主体とした研究者（ゲストスピーカー）よる主に英語での最先端の専門領域研究についての講演を講義に取り入れ，国

際的な研究活動を行うために必要な能力を養う。 到達目標 Course Goals 複数の外国人ゲストスピーカーに化学の様々な分野における最先端の研究成果を英語で紹介してもらうことにより，化学研究に

おける国際的感覚を養う。英語で討議を行うことにより，国際会議等におけるディスカッション能力を養う。 授業計画 Course Schedule 以下に示す化学の幅広い分野において，先端的な研究を展開している外国人研究者より直接英語で講義を受け，広い視野を

身につける。各講義において英語によるディスカッションを行い，国際研究発表の場において相手の考えを理解し，自分の考え

を論理的に説明する能力を身につける。

１．物理化学領域（理論化学，表面科学，分光学，電気化学，触媒化学，クラスター化学） ２．無機分析化学領域（希土類，アクチノイド，光化学，錯体化学） ３．有機化学領域（有機構造化学，合成化学，天然物化学，有機金属化学，生物活性天然物） ４．生物化学領域（タンパク質の機能と制御，生命現象の分子機構，生物物理化学） ５．物質化学領域（セラミックス，炭素材料，複合材料の設計，エネルギー材料） ６．有機プロセス工学領域（有機材料，有機工業化学，化学工学，反応工学） ７．生物機能高分子領域（生物工学，機能化学，動物細胞工学，バイオテクノロジー）

準備学習 (予習・復習)等の内容と分量 Homework 講演内容について疑問を残さないように、講演終了後に講師に質疑を行う。

成績評価の基準と方法 Grading System 原則として、学修態度(20％)、レポート(80％)によって評価する。 テキスト・教科書 Textbooks

講義指定図書 Reading List

参照ホームページ Websites

研究室のホームページ Websites of Laboratory

備考 Additional Information

科目名 Course Title 総合化学研究インターンシップ[Internship] 講義題目 Subtitle

責任教員 Instructor 仙北 久典 [Hisanori SENBOKU] (大学院工学研究院) 担当教員 Other Instructors 開講年度 Year 2020 時間割番号 Course Number 095161 期間 Semester ２学期（秋） 単位数 Number of Credits 1 授業形態 Type of Class インターンシップ 対象年次 Year of Eligible Student 〜 ナンバリングコード Numbering Code CHEM_REQEL 7141 補足事項 Other Information

キーワード Key Words 海外インターンシップ，就業体験 授業の目標 Course Objectives 企業・団体等において自らの専攻や将来のキャリアに関連した就業体験を行い，実社会に触れることによる学習意欲の向上や

職業観・勤労観の育成を行う。 また，海外インターンシップにおいては，国際的視野を養い，国内では得ることのできない専門知識や技術を習得する。 到達目標 Course Goals 派遣先との交渉から始まり，コミュニケーション能力，語学力，研究実践力，研究ネットワーク・コミュニティ形成力等を向上させ，

技術者あるいは研究者としての就業意識を高める。 海外インターンシップにおいては，派遣先での経験を基礎的な学習に留めず，実践レベルの共同研究へ発展させる。 授業計画 Course Schedule おおよそ以下のスケジュールで実施する。

１．募集告知 ２．申請（履修登録ではない） ３．準備 ４．インターンシップの実施（2 週間～2 ヶ月） ５．インターンシップ終了後：成果報告書（レポート）の提出，報告会 準備学習 (予習・復習)等の内容と分量 Homework インターンシップ前に事前研修の一部として，各自研修先に応じた予備調査や実験準備を行う。 成績評価の基準と方法 Grading System 原則として，研修終了後に学修成果に関するレポートの提出を課し，プログラム報告会において学修成果の発表を行い（海外イ

ンターンシップの場合は英語による），レポート提出と報告会での発表により評価を行う。 テキスト・教科書 Textbooks 使用しない 講義指定図書 Reading List 使用しない 参照ホームページ Websites

研究室のホームページ Websites of Laboratory

備考 Additional Information