Hiroshima University Syllabus

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Japanese
Academic Year 2020Year School/Graduate School Natural Science Center for Basic Research and Development (University Wide Courses for Graduate Students)
Lecture Code 8D010001 Subject Classification Specialized Education
Subject Name サステナブル物質科学
Subject Name
(Katakana)
サステナブルブッシツカガク
Subject Name in
English
Sustainability Materials Science
Instructor ICHIKAWA TAKAYUKI,ABE HIROSHI,SUEKUNI KOICHIRO,KITA HIROSHI,NEZU SHINJI,SHIRAHAMA HIROYUKI,SHIONO TAKESHI,MIYAOKA HIROKI,TAKAHASHI OSAMU,NISHIHARA SADAFUMI,OSAKA ITARU,KOJIMA YOSHITSUGU,OKADA KENTA,INOUE KATSUYA,IMAE ICHIRO
Instructor
(Katakana)
イチカワ タカユキ,アベ ヒロシ,スエクニ コウイチロウ,キタ ヒロシ,ネヅ シンジ,シラハマ ヒロユキ,シオノ タケシ,ミヤオカ ヒロキ,タカハシ オサム,ニシハラ サダフミ,オサカ イタル,コジマ ヨシツグ,オカダ ケンタ,イノウエ カツヤ,イマエ イチロウ
Campus Higashi-Hiroshima Semester/Term 1st-Year,  First Semester,  1Term
Days, Periods, and Classrooms (1T) Weds7-8,Fri7-8:ENG 220
Lesson Style Lecture Lesson Style
【More Details】
Projector, prited papers 
Credits 2.0 Class Hours/Week   Language on Instruction J : Japanese
Course Level 5 : Graduate Basic
Course Area(Area) 25 : Science and Technology
Course Area(Discipline) 03 : Natural Environment
Eligible Students Graduate students
Keywords Sustainability Materials Sciences 
Special Subject for Teacher Education   Special Subject  
Class Status
within Educational
Program
 
Criterion referenced
Evaluation
 
Class Objectives
/Class Outline
Understanding Materials Science for Sustainable Future 
Class Schedule Lesson 1 Sustainable Material Science (1) -Global Trends toward Sustainable society- by Hiroshi Abe (Hokkaido University) 4/8(Wed)
Lesson 2 Sustainable Material Science (2) -Sustainable approach as seen from renewable energy- by Hiroshi Abe (Hokkaido University) 4/10(Fri)
Lesson 3 Development and Application of Artificial Ion Conductors by Sadafumi Nishihara (Graduate School of Advanced Science and Engineering) 4/15(Wed)
Lesson 4 Development of thermoelectric materials by Koichiro Suekuni (Kyushu University) 4/17(Fri)
Lesson 5 Development of organic thermoelectric materials by Ichiro Imae (Graduate School of Advanced Science and Engineering) 4/22(Wed)
Lesson 6 Hydrogen Energy (1) -Hydrogen Storage- by Yoshitsugu Kojima (N-BARD, Graduate School of Advanced Science and Engineering) 4/24(Fri)
Lesson 7 Hydrogen Energy (2) -Hydrogen Production- by Hiroki Miyaoka (N-BARD, Graduate School of Advanced Science and Engineering) 5/1(Fri)
Lesson 8 Material Design by computer simulation by Kenta Okada (Graduate School of Advanced Science and Engineering) 5/8(Fri)
Lesson 9 Current state and future of polymer materials for our daily life by Takeshi Shiono (Graduate School of Advanced Science and Engineering) 5/13(Wed)
Lesson 10 Bioplastics by Hiroyuki Shirahama (SEIHO Engineering Co., Ltd.) 5/15(Fri)
Lesson 11 Development of Next-Generation Secondary Battery by Takayuki Ichikawa (Graduate School of Advanced Science and Engineering) 5/20 (Wed)
Lesson 12 Development of solution-processed organic solar cells by Itaru Osaka (Graduate School of Advanced Science and Engineering) 5/22(Fri)
Lesson 13 Organic Light Emitting Devices by Hiroshi Kita (KONICA MINOLTA, INC.) 5/27(Wed)
Lesson 14 Thermodynamics for electro-chemistry by Shinji Nezu (-) 5/29(Fri)
Lesson 15 Sustainable science with computer simulations by Osamu Takahashi (Graduate School of Advanced Science and Engineering) 6/3(Wed) 
Text/Reference
Books,etc.
printed papers 
PC or AV used in
Class,etc.
Projectors 
Suggestions on
Preparation and
Review
All lectures; need your self studies 
Requirements  
Grading Method reports 
Practical Experience  
Summary of Practical Experience and Class Contents based on it  
Message  
Other   
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Instructors will reflect on your feedback and utilize the information for improving their teaching. 
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