물질의 새로운상태
- 건국대학교
- Quanxi Jia
페이스북
트위터
카카오톡
네이버밴드
링크복사
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- 주제분류
- 자연과학 >수학ㆍ물리ㆍ천문ㆍ지리 >물리학
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- 강의학기
- 2013년 1학기
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- 조회수
- 3,720
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새로운 연구 분야의 신소재에서 나타나는 새로운 물리학을 다룬다. 기존의 물리학으로는 설명이 되지
않고, 새로운 물리학적 해석을 필요로 하는 신소재에서의 다양한 물리학적 접근 방법을 구체적으로
가르친다.
않고, 새로운 물리학적 해석을 필요로 하는 신소재에서의 다양한 물리학적 접근 방법을 구체적으로
가르친다.
- 수강안내 및 수강신청
- ※ 수강확인증 발급을 위해서는 수강신청이 필요합니다
Introduction
차시별 강의
| 1. | |
Introduction | Introduction, Surface vs. bulk |  |
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Introduction | Introduction, Surface vs. bulk | |
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| 2. | |
Processing-structure-property relationship (I) | Unique Properties of Thin Film, Typical steps in making thin films, non-crystalline solids, Classify solids, Surface energy, Epitaxy, Surface and Interface Crystallography, Strain in epitaxial layers can be beneficial | |
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Processing-structure-property relationship (I) | Unique Properties of Thin Film, Typical steps in making thin films, non-crystalline solids, Classify solids, Surface energy, Epitaxy, Surface and Interface Crystallography, Strain in epitaxial layers can be beneficial | |
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Processing-structure-property relationship (I) | Unique Properties of Thin Film, Typical steps in making thin films, non-crystalline solids, Classify solids, Surface energy, Epitaxy, Surface and Interface Crystallography, Strain in epitaxial layers can be beneficial | |
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| 3. | |
Processing-structure-property relationship (II) | Strained films, Lattice misfit, Crystal structures and orientations | |
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Processing-structure-property relationship (II) | Strained films, Lattice misfit, Crystal structures and orientations | |
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| 4. | |
Processing-structure-property relationship (III) | Structure evolution in polycrystalline films. Substrate temperature affects the density of films. Effect of deposition rate and substrate temperature on film properties. | |
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Processing-structure-property relationship (III) | Structure evolution in polycrystalline films. Substrate temperature affects the density of films. Effect of deposition rate and substrate temperature on film properties. | |
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Processing-structure-property relationship (IV) | Different techniques avaitable for the growth of thin films. Vapor pressure of different metals at different temperature. Sputtering yield-sputter efficiency. Parameters for DC sputtering | |
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Processing-structure-property relationship (IV) | Different techniques avaitable for the growth of thin films. Vapor pressure of different metals at different temperature. Sputtering yield-sputter efficiency. Parameters for DC sputtering | |
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| 6. | |
Processing-structure-property relationship (V) | sputtering, Evaporation vs. sputtering | |
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Processing-structure-property relationship (V) | sputtering, Evaporation vs. sputtering | |
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| 7. | |
Multifunctional materials (I) | Novel functionalities of thin films. PLD-a powerful technique for the growth of thin films. Advantages of PLD for ferroelectric films. Important parameters to be considered for PLD. Particulate formed at different strages of film deposition. | |
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Multifunctional materials (I) | Novel functionalities of thin films. PLD-a powerful technique for the growth of thin films. Advantages of PLD for ferroelectric films. Important parameters to be considered for PLD. Particulate formed at different strages of film deposition. | |
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| 8. | |
Multifunctional materials (II) | Critical mismatch and Lattice strain. Superconduting interfaces between insulating oxides. Interesting features from vertical interfaces, Multiferroic BaTiO3-CoFe2O4 nanostructures | |
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Multifunctional materials (II) | Critical mismatch and Lattice strain. Superconduting interfaces between insulating oxides. Interesting features from vertical interfaces, Multiferroic BaTiO3-CoFe2O4 nanostructures | |
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| 9. | |
Research presentation | Giving Effective Presentations | |
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Research presentation | Giving Effective Presentations | |
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Research presentation | Giving Effective Presentations | |
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| 10. | |
Multifunctional materials (III) | Chemical solution deposition. Flow chart of typical chemical solution deposition process, PAD process | |
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Multifunctional materials (III) | Chemical solution deposition. Flow chart of typical chemical solution deposition process, PAD process | |
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Multifunctional materials (III) | Chemical solution deposition. Flow chart of typical chemical solution deposition process, PAD process | |
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| 11. | |
Multifunctional materials (Ⅳ) | Variation of resistivity of metal with temperature. Discovery of superconductivity | |
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Multifunctional materials (Ⅳ) | Variation of resistivity of metal with temperature. Discovery of superconductivity | |
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