Educations
Goals
Educational Goals of Graduate Schools
This graduate school jointly educates professional talents who can lead the world's convergence and convergence technologies. Korea University and the Korea Institute of Science and Technology collaborate to inspire broad convergence consideration and cultivate creative research capabilities. Furthermore, by improving the quality of life through Need-Based Research and Human-Oriented Research, we aim to improve the Meaning of life and the dignity of life.
Education Goals of NBIT Convergence Major
The NBIT Convergence Major is based on the convergence of nanoscience and biotechnology-medical science. The educational goal is to inspire a wide range of convergence thinking and cultivate creative research capabilities in the fields of convergence science and technology, such as molecular memory and information transfer, spintronics, future semiconductors, memristors (artificial brain), energy harvesting, molecular imaging, artificial intelligence, organs, kinetics, biosensors, stem cells, and nanomedicine.
Essential Education Competencies
| Essential education competencies | Essential education competencies details | |
|---|---|---|
| Ⅰ | Creative Convergence Science and Technology | Education is provided to cultivate the ability to creatively challenge the field of convergence through convergence science and technology education. |
| Ⅱ | Basic science | It educates the essence of basic scientific knowledge that is the basis of convergence science, such as physics, chemistry, and biology. |
| Ⅲ | Convergence applied science and technology | We educate convergence applied science and technology in the fields of nanoscience and biomedical science. |
Self Education Competencies
| Self Education Competencies | Self education competencies details | |
|---|---|---|
| 1 | Energy conversion and storage technology |
- Principles of energy conversion materials and devices. - Acquisition of related thin film technology, nano material technology, nano device technology, and circuit technology |
| 2 | Spin electronic device and spin properties |
- Understanding of the mechanism of spintronic devices - Understanding the interaction between spin behavior and magnetization, and introduction to applied devices |
| 3 | Biomaterials, tissue engineering |
- Introduction and design of materials to be implanted in the living body - Learning about scaffolds, cells and fusion technology for human organ and tissue regeneration |
| 4 | Frontier interface | - Formation of various interfaces and the frontier role of those interfaces |
| 5 | Microsystem design, fabrication and application | - Learn about the design, materials, and fabrication processes for building microsystems |
| 6 | Bioimaging, molecular imaging |
- Basic principles of bioimaging, marker synthesis, and measurement - Synthesis of molecular image markers, acquisition of animal image acquisition techniques |
| 7 | Cancer, chemistry biology | - Cancer therapy/cancer biology/chemical biology related to the search for targeted anticancer drugs |
| 8 | Flexible electronic devices and materials |
- Introduction to flexible electronic devices and materials and learning about design - Manufacturing process and characteristic analysis method of flexible device |
| 9 | Patch clamping and imaging | - Acquisition of electrophysiology and fluorescence imaging techniques that are the basis of neuroscience |
| 10 | 2D nano device and physical properties | - Manufacturing and electrical and photoelectric properties of various nanodevices based on understanding of two-dimensional materials and physical properties |
