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Lee Kyu Hyoung
To realize next-generation devices, novel ceramic materials with ultimate physical and chemical properties are required. For this purpose, a few intrinsic and extrinsic approaches for the development of new functional ceramics are proceeding. This course provides the fundamentals of functional ceramics and the materials design rules for developing advanced ceramics with ultimate physical and chemical properties.
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What's inside
Syllabus
Background of Ceramics
In this module, you can study about metals and ceramics. You can classify ceramics by various methods and calculate the theoretical density. You will know what a coordination number is and about nanomaterials.
Read more
Syllabus
Background of Ceramics
In this module, you can study about metals and ceramics. You can classify ceramics by various methods and calculate the theoretical density. You will know what a coordination number is and about nanomaterials.
Read more
Traffic lights
Traffic lights
Read about what's good
what should give you pause and
possible dealbreakers
Teaches the fundamentals, which is standard in the ceramics industry
This course belongs to a series of other courses, which indicates comprehensiveness and detail
Taught by Lee Kyu Hyoung, who is recognized for their work in this field
Explores next-generation devices and ultraphysical and chemical properties, which is highly relevant in the field
Examines various methods for the development of new functional ceramics, which is essential to the development of new technologies
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Reviews summary
Fundamentals to advanced ceramic materials
According to students, this course provides a strong theoretical foundation and comprehensive insights into advanced functional ceramics. Learners particularly highlight the detailed coverage of fundamental concepts like crystal defects and synthesis techniques. The curriculum successfully bridges theoretical understanding with practical applications, including transparent conductive oxides and thermoelectrics, making it highly relevant for professionals seeking to understand next-generation materials. While the course is dense with information, it is considered a valuable resource for those with appropriate prior knowledge.
Connects theoretical principles to cutting-edge device applications.
"The focus on next-generation devices made the complex theories highly relevant to current research."
"Learning about transparent conductive oxides and thermoelectrics was very practical for my work."
"This course helps connect the dots between fundamental science and real-world material needs."
Provides profound theoretical understanding of material science.
"This course is ideal for understanding the 'why' behind material properties, focusing on design rules."
"I found the explanations of electrical conductivity principles in oxides particularly insightful."
"It's very academic and strong on the scientific principles underpinning functional ceramics."
Offers thorough coverage from basic to advanced ceramic topics.
"I appreciated the course's broad scope, from basic ceramic concepts to advanced applications."
"The modules on defects and synthesis methods laid a solid groundwork before diving into specific properties."
"This course touched on many areas, including TCOs, electrides, and magnetics, which was great."
Primarily theoretical with limited hands-on or lab exercises.
"I hoped for more practical examples or case studies beyond just theoretical principles."
"The course is very lecture-heavy with no labs, which is expected but worth noting."
"It's excellent for theory, but don't expect to learn how to 'do' synthesis or characterization."
Requires existing foundational knowledge in materials science.
"As an 'advanced' course, it definitely helped to have a strong background in materials before starting."
"I felt a bit lost initially without a solid grasp of basic crystallography and solid-state physics."
"This isn't a beginner's course; come prepared with foundational ceramic science."
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Advanced Functional Ceramics with these
activities:
Revisit Solid State Chemistry Principles
Show steps
Refresh your knowledge of solid state chemistry concepts to enhance your understanding of ceramic materials.
Browse courses on
Materials Science
Show steps
-
Review the properties and behavior of solids.
-
Study the different types of chemical bonding in solids.
-
Practice applying solid state chemistry principles to ceramic materials.
Review Crystallography Concepts
Show steps
Strengthen your foundation in crystallography to better understand the structure and properties of ceramic materials.
Browse courses on
Crystallography
Show steps
-
Review basic crystal structures and symmetry.
-
Practice identifying crystal planes and directions.
-
Use crystallographic software to visualize and analyze crystal structures.
Explore Ceramic Fabrication Techniques
Show steps
Expand your understanding of ceramic fabrication by reviewing various techniques and their applications.
Show steps
-
Research online tutorials on ceramic fabrication techniques.
-
Select techniques that align with your learning goals.
-
Follow the instructions and experiment with the techniques.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Solve Practice Problems
Show steps
Reinforce your understanding of ceramic materials and principles by practicing solving problems.
Show steps
-
Review the concepts covered in the module.
-
Identify the relevant principles for the problem.
-
Formulate a plan to solve the problem.
-
Solve the problem.
-
Check your solution and identify any errors.
Collaborate on Ceramic Materials Research
Show steps
Enhance your understanding and critical thinking by discussing and collaborating on ceramic materials research.
Show steps
-
Form a study group with peers.
-
Select a topic related to ceramic materials.
-
Research and gather information on the topic.
-
Discuss your findings and ideas with the group.
-
Present your research to the class.
Design a Ceramic Material
Show steps
Apply your knowledge of ceramic materials design by creating a custom material with desired properties.
Browse courses on
Materials Design
Show steps
-
Research different types of ceramic materials and their properties.
-
Identify the desired properties for your material.
-
Design the composition and structure of your material.
-
Simulate or experiment with your material to verify its properties.
Develop a Ceramic Materials Database
Show steps
Organize and manage your knowledge by creating a comprehensive database on various ceramic materials and their properties.
Show steps
-
Research and gather information on different ceramic materials.
-
Design a database structure to store the information.
-
Populate the database with relevant data.
-
Develop tools to query and analyze the data.
-
Share your database with others.
Revisit Solid State Chemistry Principles
Show steps
Refresh your knowledge of solid state chemistry concepts to enhance your understanding of ceramic materials.
Browse courses on
Materials Science
Show steps
Show steps
Show steps
- Review the properties and behavior of solids.
- Study the different types of chemical bonding in solids.
- Practice applying solid state chemistry principles to ceramic materials.
Review Crystallography Concepts
Show steps
Strengthen your foundation in crystallography to better understand the structure and properties of ceramic materials.
Browse courses on
Crystallography
Show steps
Show steps
Show steps
- Review basic crystal structures and symmetry.
- Practice identifying crystal planes and directions.
- Use crystallographic software to visualize and analyze crystal structures.
Explore Ceramic Fabrication Techniques
Show steps
Expand your understanding of ceramic fabrication by reviewing various techniques and their applications.
Show steps
Show steps
Show steps
- Research online tutorials on ceramic fabrication techniques.
- Select techniques that align with your learning goals.
- Follow the instructions and experiment with the techniques.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Solve Practice Problems
Show steps
Reinforce your understanding of ceramic materials and principles by practicing solving problems.
Show steps
Show steps
Show steps
- Review the concepts covered in the module.
- Identify the relevant principles for the problem.
- Formulate a plan to solve the problem.
- Solve the problem.
- Check your solution and identify any errors.
Collaborate on Ceramic Materials Research
Show steps
Enhance your understanding and critical thinking by discussing and collaborating on ceramic materials research.
Show steps
Show steps
Show steps
- Form a study group with peers.
- Select a topic related to ceramic materials.
- Research and gather information on the topic.
- Discuss your findings and ideas with the group.
- Present your research to the class.
Design a Ceramic Material
Show steps
Apply your knowledge of ceramic materials design by creating a custom material with desired properties.
Browse courses on
Materials Design
Show steps
Show steps
Show steps
- Research different types of ceramic materials and their properties.
- Identify the desired properties for your material.
- Design the composition and structure of your material.
- Simulate or experiment with your material to verify its properties.
Develop a Ceramic Materials Database
Show steps
Organize and manage your knowledge by creating a comprehensive database on various ceramic materials and their properties.
Show steps
Show steps
Show steps
- Research and gather information on different ceramic materials.
- Design a database structure to store the information.
- Populate the database with relevant data.
- Develop tools to query and analyze the data.
- Share your database with others.
Career center
Learners who complete Advanced Functional Ceramics will develop knowledge and skills
that may be useful to these careers:
Ceramics Engineer
Ceramics Engineer
Ceramics Engineers have significant expertise in the creation and application of a wide range of ceramics. They will often find themselves involved in the development of new ceramics and the improvement of already existing ones. To realize next-generation devices, novel ceramic materials with ultimate physical and chemical properties are required. This Advanced Functional Ceramics course covers the fundamentals of functional ceramics and materials design rules to develop advanced ceramics with ultimate physical and chemical properties. Graduates of this course should be able to significantly contribute to the development and improvement of ceramics.
Materials Scientist
Materials Scientist
Materials Scientists find employment in a variety of industries, including aerospace, automotive, electronics, healthcare, and manufacturing. They study the properties of various materials, such as ceramics, metals, and polymers, and develop new materials with improved properties. This Advanced Functional Ceramics course focuses on materials design rules for developing advanced ceramics with ultimate physical and chemical properties. Graduates with a background in materials science will gain valuable knowledge about ceramics and be well suited to work with these materials in their research.
Chemical Engineer
Chemical Engineer
Chemical Engineers work in various industries, including pharmaceuticals, chemicals, food, and energy. Their responsibilities include designing, building, and operating chemical plants and equipment. They also develop new chemical processes and products. The Advanced Functional Ceramics course covers the synthesis of ceramics, including various ceramic powder processing and compaction/sintering techniques. Graduates may find this knowledge useful in designing and operating chemical plants that produce ceramics.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design, build, and operate a wide range of mechanical systems, including engines, turbines, robots, and vehicles. They also work in various industries, including manufacturing, construction, and transportation. The Advanced Functional Ceramics course covers the properties and applications of ceramics, including their physical, thermal, and optical properties. Graduates may find this knowledge useful in designing and building mechanical systems that use ceramics, such as heat exchangers, cutting tools, and sensors.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, build, and operate electrical systems, including power plants, electrical distribution systems, and electronic devices. They also work in various industries, including manufacturing, construction, and telecommunications. The Advanced Functional Ceramics course covers the properties and applications of ceramics, including their electrical properties. Graduates may find this knowledge useful in designing and building electrical systems that use ceramics, such as capacitors, insulators, and semiconductors.
Biomedical Engineer
Biomedical Engineer
Biomedical Engineers combine engineering principles with medical knowledge to design and build medical devices and systems. They also work in various industries, including healthcare, pharmaceuticals, and biotechnology. The Advanced Functional Ceramics course covers the properties and applications of ceramics, including their biocompatibility and bioactivity. Graduates may find this knowledge useful in designing and building medical devices and systems that use ceramics, such as implants, tissue scaffolds, and drug delivery systems.
Materials Processing Engineer
Materials Processing Engineer
Materials Processing Engineers develop and improve processes for the production of various materials, including metals, ceramics, and polymers. They work in various industries, including manufacturing, construction, and transportation. The Advanced Functional Ceramics course covers the synthesis of ceramics, including various ceramic powder processing and compaction/sintering techniques. Graduates may find this knowledge useful in developing and improving processes for the production of ceramics.
Ceramic Technician
Ceramic Technician
Ceramic Technicians work in various industries, including manufacturing, construction, and healthcare. Their responsibilities include preparing, processing, and testing ceramic materials, as well as operating and maintaining ceramic equipment. The Advanced Functional Ceramics course covers the synthesis of ceramics, including various ceramic powder processing and compaction/sintering techniques. Graduates may find this knowledge useful in carrying out their responsibilities as Ceramic Technicians.
Quality Control Inspector
Quality Control Inspector
Quality Control Inspectors work in various industries, including manufacturing, construction, and healthcare. Their responsibilities include inspecting and testing products and materials to ensure that they meet quality standards. The Advanced Functional Ceramics course covers the properties and applications of ceramics, as well as various testing techniques. Graduates may find this knowledge useful in carrying out their responsibilities as Quality Control Inspectors, particularly in industries that use ceramics.
Research Scientist
Research Scientist
Research Scientists conduct research in various fields of science, including materials science, chemistry, and biology. They work in various settings, including universities, government laboratories, and private companies. The Advanced Functional Ceramics course covers the fundamentals of functional ceramics and materials design rules for developing advanced ceramics with ultimate physical and chemical properties. Graduates may find this knowledge useful in conducting research on ceramics and related materials.
Science Teacher
Science Teacher
Science Teachers teach science at various levels, including elementary school, middle school, and high school. They develop and deliver lesson plans, conduct experiments, and assess student learning. The Advanced Functional Ceramics course covers the fundamentals of functional ceramics and materials design rules for developing advanced ceramics with ultimate physical and chemical properties. Graduates may find this knowledge useful in teaching science at the high school level, particularly in chemistry or physics.
Technical Writer
Technical Writer
Technical Writers create technical documentation, such as user manuals, white papers, and training materials. They work in various industries, including software, hardware, and manufacturing. The Advanced Functional Ceramics course covers the fundamentals of functional ceramics and materials design rules for developing advanced ceramics with ultimate physical and chemical properties. Graduates may find this knowledge useful in writing technical documentation for products that use ceramics.
Sales Engineer
Sales Engineer
Sales Engineers sell technical products and services to businesses. They work in various industries, including software, hardware, and manufacturing. The Advanced Functional Ceramics course covers the properties and applications of ceramics, as well as various testing techniques. Graduates may find this knowledge useful in selling technical products and services that use ceramics.
Marketing Manager
Marketing Manager
Marketing Managers develop and implement marketing campaigns to promote products and services. They work in various industries, including software, hardware, and manufacturing. The Advanced Functional Ceramics course covers the properties and applications of ceramics, as well as various testing techniques. Graduates may find this knowledge useful in developing and implementing marketing campaigns for products and services that use ceramics.
Business Analyst
Business Analyst
Business Analysts identify and analyze business needs and develop solutions to improve business processes. They work in various industries, including software, hardware, and manufacturing. The Advanced Functional Ceramics course may be useful for Business Analysts who work in industries that use ceramics, as it provides a foundation in the properties and applications of ceramics.
For more career information including salaries, visit:
OpenCourser.com/course/kuk3hl/advanced
Reading list
We've selected seven books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Advanced Functional Ceramics.
Save
Provides a comprehensive overview of the science and engineering of ceramic materials. It would be a valuable resource for students and researchers interested in this field.
Save
Provides comprehensive coverage of the ceramic materials. It covers a wide range of topics, including materials, processing, and applications. It is useful for researchers, students, and professionals in the field of ceramics.
Save
This classic textbook provides a comprehensive overview of the science and engineering of ceramic materials, including their properties, processing, and applications.
Provides comprehensive coverage of the ferroelectrics. It covers a wide range of topics, including materials, processing, and applications. It is useful for researchers, students, and professionals in the field of ceramics.
Save
Provides comprehensive coverage of the electroceramics. It covers a wide range of topics, including materials, processing, and applications. It is useful for researchers, students, and professionals in the field of ceramics.
Save
Provides a comprehensive overview of the processing of ceramic materials, including their powder synthesis, forming, and sintering.
This textbook provides a comprehensive overview of materials science and engineering, including the properties, processing, and applications of various materials.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/kuk3hl/advanced
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Yonsei University
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Lee Kyu Hyoung
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