PHY582 - Advanced Materials Design - “Experiencing State-of-the-Art Innovations”
Can solar energy be harvested through transparent windows? How do quantum phenomena revolutionize our lives? Why do batteries fail and when will electric cars achieve 1000 km autonomy? Why is 3D printing becoming a game-changer in construction? What’s the role of rare-earth elements in life science?
To answer such questions, we will explore how artificial design of materials can revolutionize modern devices and engineering, highlighting key advancements and applications that are transforming industries. By studying cutting edge theoretical and experimental findings on the emerging properties of materials at the nanoscale, we will learn how these unique properties can change physical, mechanical, and chemical characteristics of functional materials. This knowledge will permit to understand applications across various sectors such as mobility, housing, healthcare, energy, and environmental sustainability. Through this course, you will gain insights into integrating materials into design thinking and engineering practices, preparing you to tackle real-world problems with innovative solutions.
Course outline:
- LECTURES :: Hands-on introduction to materials science
- Reviews on fundamental properties of materials (natural & industrial contexts)
- Materials design process: how the physical, mechanical, and chemical properties of various materials are tailored for specific applications.
- Exploration of the structure-property relationship and characterization methods.
- Case studies of breakthroughs towards advanced materials
- INVITED SEMINARS :: State-of-the-art innovations
- Research talks given by expert researchers and engineers from leading academic labs and high-tech companies.
- TEAM PROJECT :: Comprehensive research on selected topics
- Extensive literature review
- Understanding theoretical background
- Laboratory experiments including: material fabrication, assembly of structure and devices, characterization of structure and properties.
Terms of evaluation:
Written project report and oral presentation
Participation and Involvement
Language of the course: English
Credits ECTS : 5
This course is part of the actions of the Chaire X-Saint-Gobain.
- Teaching coordinator: Biermann Silke
- Teaching coordinator: Constantinescu Andrei
- Teaching coordinator: Gacoin Thierry
- Teaching coordinator: Kim Jong Wook