Course Name
|
Turkish |
Lityum İyon Pil Teknolojileri
|
| English |
Lithium Ion Battery Technologies |
Course Code
|
MET 613 |
Credit |
Lecture
(hour/week) |
Recitation
(hour/week) |
Laboratory
(hour/week) |
| Semester |
-
|
- |
3 |
- |
- |
| Course Language |
Turkish |
| Course Coordinator |
Özgül Keleş
|
| Course Objectives |
1. To give students another perpective in developing energy sector and problems solving approach.
2. The importance of battery technologies will be emphasized.
3. Understanding of basic principles and concepts in batteries, the difference between primary and secondary batteries technologies will be defined,
4. Lithium Ion Battery Technologies and basic components will be introduced.
5. Design and materials selection principles for anode and cathode materials and different production methods for anode and cathode materials will be taught.
6. Future trends in lithium ion materials and technologies will be disscussed and the importance of nanotechnology in Lithium Ion Batteries will be emphasized.
|
| Course Description |
Introduction to Battery Technologies, Historical Background in Battery Technologies, Basic Concepts in Batteries (Cell Potential, Current-Potential Relation, Capacity, Cycle, etc.), Battery Design and Standards, Primary Batteries, Secondary Batteries, Lithium Ion Battery Technologies, Applications areas, market share and safety in Lithium ion batteries, Basic Components, Working Principles, Electrolyte, Separators, Hardware Elements, Anode Materials (carbon anodes, oxides, alloy anodes, etc), Production Techniques of Anode Materials, Cathode Materials (Layered, Spinel and Olivine Structures), Production Techniques of Electrode (Solid State Methods, Co-precipitation, Sol-Gel, Hydro Thermal Methods, Electrolytic Coatings, Thin Film Coatings Methods, Pyrolysis, Ultrasonic Spray Pyrolysis, etc.) Materials, Characterization Techniques in Lithium Ion Batteries (Cycling, CV, impedance), Future Trends in Lithium Ion Battery Materials and Technologies, Nanotechnology in Lithium Ion Batteries, Industrial Applications, Presentations.
|
| Course Outcomes |
MSc. and Ph.D students who successfully pass this course gain knowledge, skills and competency in the following subjects;
1. Developments in energy sector and battery technologies
2. Battery technologies, basic components and basic working principles of batteries
3. Lithium ion battery components, the structures of these components and their production and characterization methods will be taught.
4. Design criteria for a battery, and battery components, design criteria for their production and characterization techniques will be taught. |
| Pre-requisite(s) |
- |
| Required Facilities |
- |
| Other |
- |
| Textbook |
1. Lithium Ion Batteries New Developments, Edited by Ilias Belharouak, ISBN 978-953-51-0077-5, Hard cover, 226 pages, Publisher: InTech, Chapters published February 24, 2012 under CC BY 3.0 license, DOI: 10.5772/1358, , February, 2012.
2. Handbook of Batteries, Editors, D. Linden, Thomas Reddy, ISBN 0-07-135978-8, Mc GrawHill, Third Ed. ,2002.
3. Advances in Lithium Ion Batteries, Walter A. van, Schalkwijk, B. Scrosati, Kluwer Academic Publishers, New York, Boston, Dordrecht, London, Moscow, eBook ISBN: 0-306-47508-1, Print ISBN: 0-306-47356-9, 2002.
4. Lithium Ion Batteries Fundamentals and Performance, Eds. , M. Wakihara, 0. Yamamoto, Kodansha Ltd., Tokyo (Japan), WILEY-VCH Verlag GmbH, Weinheim (Federal Republic of Germany), ISBN 3-527-29569-0 (WILEY-VCH)ISBN 4-06-208631-X (KODANSHA), 1998. |
| Other References |
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