大学院
学内のオンライン授業の情報漏洩防止のため,URLやアカウント、教室の記載は削除しております。
最終更新日:2024年4月22日
授業計画や教室は変更となる可能性があるため、必ずUTASで最新の情報を確認して下さい。
UTASにアクセスできない方は、担当教員または部局教務へお問い合わせ下さい。
最終更新日:2024年4月22日
授業計画や教室は変更となる可能性があるため、必ずUTASで最新の情報を確認して下さい。
UTASにアクセスできない方は、担当教員または部局教務へお問い合わせ下さい。
化学特別講義Ⅵ
化学特別講義Ⅵ/ Special Lecture on Advanced ChemistryⅥ
化学専攻と工学系化学3専攻(応用化学専攻、化学システム工学専攻、化学生命
工学専攻)が連携し、理工の枠を超えた教育と国際性豊かな人材育成を目指し、
外国人招聘教授や国内の専門家による最先端化学に関する講義を行う。
This course begins with an introduction of how chemistry and chemical engineering principles contribute to nanomaterials-driven sustainability. Following that is in-depth discourses on the fundamental concepts in the chemistry and materials properties of inorganic nanomaterials. Then, design of functional inorganic nanomaterials is introduced followed by the discussion on synthesis, characterization, properties and applications. Applications of these concepts would be realized in diverse, current and important sustainability topics such as inorganic nanomaterials for energy conversion and storage, green catalysis for fine chemicals, and applications in environment and human health.
工学専攻)が連携し、理工の枠を超えた教育と国際性豊かな人材育成を目指し、
外国人招聘教授や国内の専門家による最先端化学に関する講義を行う。
This course begins with an introduction of how chemistry and chemical engineering principles contribute to nanomaterials-driven sustainability. Following that is in-depth discourses on the fundamental concepts in the chemistry and materials properties of inorganic nanomaterials. Then, design of functional inorganic nanomaterials is introduced followed by the discussion on synthesis, characterization, properties and applications. Applications of these concepts would be realized in diverse, current and important sustainability topics such as inorganic nanomaterials for energy conversion and storage, green catalysis for fine chemicals, and applications in environment and human health.
時間割/共通科目コード
コース名
教員
学期
時限
35606-1113
GSC-CH5315L3
化学特別講義Ⅵ
一杉 太郎
集中
マイリストに追加
マイリストから削除
講義使用言語
英語
単位
1
実務経験のある教員による授業科目
NO
他学部履修
可
開講所属
理学系研究科
授業計画
講師:LIM Jongwoo 准教授(Seoul National University)
集中講義: 7月10日・11日(2日間)午前、午後
詳細は以下英語版をご覧下さい
Lecturer: Dr. Jongwoo LIM(Seoul National University)
Lecture: July 10th and 11th (2days)morning and afternoon
The first class will provide an introduction to the fundamental
thermodynamics used in lithium-ion batteries. I will explain how the
material's phase diagram and electrochemical transport phenomena
control the current-voltage response in batteries. The second class
will offer an overview of advanced characterization techniques that
enable us to understand operation and degradation mechanisms in both
bulk materials and interfaces. This will include key synchrotron-based
technologies, as well as spectroscopy and microscopy. The third class
will demonstrate how my research lab reveals the dynamics of battery
operation across a wide range of lengths, from atoms and single
particles to electrode levels. The fourth class will identify the key
questions remaining in the field of lithium-ion batteries, discussing
current trends and outlooks for next-generation batteries, such as
lithium-metal batteries and all-solid-state batteries.
"Fundamentals of electrochemical materials sciences for energy storage
and conversion."
July 10th 2nd period: Battery fundamentals: thermodynamics
July 10th 3rd period: Advanced characterization of batteries.
July 11th 2nd period: Multiscale dynamics in Li-ion batteries
July 11th 3rd period: What's Next: Exploring Key Questions in Li-ion
Batteries, Solid-State Batteries, and Lithium-Metal Batteries.
July 11th 4th period: Dynamics of lithium-ion batteries and their
implication for electrocatalysis
授業の方法
対面講義(集中講義)
Intensive Lecture
成績評価方法
出席とレポート
Attendance and Report
教科書
特になし
None
参考書
特になし
None
履修上の注意
授業計画を参照し、予習の上、講義に臨むことが期待される
その他
両日とも2限 開始。
詳細スケジュールについては初日にクラス内で履修者にお知らせいたします。
Begins from the second priod for both days.
Detailed Time Schedule will be announced to the registered students in the class on the first day
