Until now, single materials such as metals, ceramics, large molecules, and semiconductors have been used. The demand for materials with diverse functional characteristics is rising with the development of technology and industrial innovation. Although many problems are associated with hybrid materials, research and development in this area continue because of the strengths of these materials. Innovative technology is emphasized in the materials field because hybrid materials provides solutions to technological problems and enable successful new applications. With respect to sustainability in particular, low-cost, environmentally friendly materials are essential. In addition, hybrid materials are expected to be important in the biotechnology industry. The goal of our hybrid materials program is to become a center for fostering students’ abilities and inventing sustainable hybrid materials by accumulating and reorganizing the relevant knowledge and incorporating information from other areas.
No. | Title | Grade |
---|---|---|
4451.601 | Theories of Structure of Materials | 3 |
4451.603 | Kinetic Process in Materials | 3 |
4451.604 | Statistical Mechanics | 3 |
4451.605 | Interfacial Structure Analysis | 4 |
4451.607 | Application of Interface Phenomena to Semiconductor Devices | 3 |
4451.610A | Composite Materials for Biomedical Applications | 3 |
4451.611 | Hybrid Materials for Energy Conversion and Storage | 3 |
4451.612 | Nanomaterials and Devices for Energy | 3 |
4451.613 | Processing and Mechanical Properties of Nanomaterials | 3 |
4451.614 | Electrical and Optical Properties of Organic Semiconductors | 3 |
4451.615 | Compound Semiconductor Optoelectronic Materials and Devices | 3 |
4451.616 | Advanced Functional Polymers: Molecular Design and Applications | 3 |
4451.617 | Colloquium of Materials Science | 3 |
4451.619 | Topics in Hybrid Materials 1 | 3 |
4451.620 | Topics in Hybrid Materials 2 | 3 |
4451.621 | Advanced Molecular Electronics Materials | 3 |