Master the fundamentals and applications of advanced ceramic materials. Learn design principles for next-generation functional ceramics.
Master the fundamentals and applications of advanced ceramic materials. Learn design principles for next-generation functional ceramics.
This comprehensive course explores the development of advanced functional ceramics for next-generation devices. Students learn about ceramic materials' fundamental properties, defect structures, synthesis methods, and applications. The curriculum covers materials design rules for achieving ultimate physical and chemical properties, from nanomaterials to bulk ceramics. Topics include crystal defects, powder processing, sintering techniques, and various applications in electronics and energy technologies.
4.7
(150 ratings)
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Instructors:
English
English (Original), Deutsch (Auto), हिन्दी (ऑटो), 18 more
What you'll learn
Understand fundamental principles of ceramic materials and classifications
Master defect structures and their impact on material properties
Learn various ceramic synthesis and processing methods
Explore physical and chemical properties of functional ceramics
Gain knowledge of advanced applications in electronics and energy
Skills you'll gain
This course includes:
333 Minutes PreRecorded video
10 assignments
Access on Mobile, Tablet, Desktop
FullTime access
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There are 5 modules in this course
This comprehensive course covers the fundamentals and applications of advanced functional ceramics. Starting with basic ceramic principles and classifications, it progresses through crystal defects, synthesis methods, and various applications. The curriculum emphasizes materials design for enhanced properties, covering topics from nanomaterials to bulk ceramics. Students learn about electrical, thermal, and magnetic properties, with special focus on emerging applications in electronics and energy technologies.
Background of Ceramics
Module 1 · 3 Hours to complete
Defect in crystal
Module 2 · 3 Hours to complete
Synthesis of Ceramics
Module 3 · 3 Hours to complete
Properties and applications of Ceramics
Module 4 · 3 Hours to complete
Properties and applications of Ceramics
Module 5 · 3 Hours to complete
Fee Structure
Payment options
Financial Aid
Instructor
Associate Professor
Kyu Hyoung Lee is an associate professor at Yonsei University with a Ph.D. in ceramic engineering from Yonsei. He completed a postdoctoral fellowship at Nagoya University and has been a project leader at the Samsung Advanced Institute of Technology since 2010. His research focuses on functional inorganic materials, including thermoelectric materials, electrodes, and electronic oxides.
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4.7 course rating
150 ratings
Frequently asked questions
Below are some of the most commonly asked questions about this course. We aim to provide clear and concise answers to help you better understand the course content, structure, and any other relevant information. If you have any additional questions or if your question is not listed here, please don't hesitate to reach out to our support team for further assistance.