나노재료학(공)

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Revision as of 13:42, 13 October 2020 by 이윤지 (talk | contribs) (새 문서: {{과목 |과목번호=SE3911 |학점=3.0 |이론시수=3.0 |실습시수=0.0 |이학/공학=공 }} ===개요=== Nanotechnology can create many new materials and devices in a wide ran...)
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SE3911 나노재료학(공)
과목번호 SE3911
학점/이론시수/실습시수 3.0/3.0/0.0
교과구분
이학/공학
대분류
소분류
최초개설연도
교수자
개설학년
개설학기
교재

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선수과목

개요

Nanotechnology can create many new materials and devices in a wide range of applications. In modern nanoscience, various disciplines such as chemistry, physics, material engineering, device engineering, and analytical science are organically combined to lead the development of nanoscience. Therefore, in this lecture, we will study contents related to the synthesis and analysis of nanomaterials and device application from the viewpoints of nanomaterials and device related chemistry, physics, and material engineering in nanotechnology.

주차별계획

1주차:Overview of Nanotechnology 2주차:Basic of Quantum Physics and Mechanics? 3주차:Basic of Quantum Physics and Mechanics? 4주차:Optical Properties and Structure Analysis 5주차:Optical Properties and Structure Analysis 6주차:Zero-Dimensional (0D) Materials and Applications; Quantum Dots or Artificial Atoms 7주차:Zero-Dimensional (0D) Materials and Applications; Quantum Dots or Artificial Atoms 8주차:Mid-term exam 9주차:One-Dimensional (1D) Materials and Applications : Nanowires, Nanotubes, Nanobelts 10주차:One-Dimensional (1D) Materials and Applications : Nanowires, Nanotubes, Nanobelts 11주차:Two-Dimensional (2D) Materials and Applications : Graphen, Transition dichalcogenide Materials (TMDCs) 12주차:Two-Dimensional (2D) Materials and Applications : Graphen, Transition dichalcogenide Materials (TMDCs) 13주차:Hybrid Nanomaterials and Applications(0D-0D, 0D-1D, 0D-2D etc.) 14주차:Hybrid Nanomaterials and Applications(0D-0D, 0D-1D, 0D-2D etc.) 15주차:Nanodevice Fabrication and Characterization 16주차:Final Exam

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