- Lecturer
- Hara Masahiko
- Place
- Thr5-6(G115)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 95039
- Syllabus updated
- 2010/3/22
- Lecture notes updated
- 2010/3/22
- Semester
- Spring Semester
Outline of lecture
1.繝翫ヮ繝繧ッ繝弱Ο繧ク繝シ縺ィ繝翫ヮ繧オ繧、繧ィ繝ウ繧ケ縺ョ讎りヲ
2.襍ー譟サ蝙九励Ο繝シ繝夜。募セョ髀。縺ィ繧ケ繝壹け繝医Ο繧ケ繧ウ繝斐シ
2-1シ手オー譟サ蝙九励Ο繝シ繝夜。募セョ髀。縺ョ豁エ蜿イシ夊ヲウ繧九°繧画桃繧九∈
2-2シ手オー譟サ蝙九ヨ繝ウ繝阪Ν鬘募セョ髀。シ托シ夊。ィ髱「蛹門ュヲ縺ィ逶ク霆「遘サ
2-3シ手オー譟サ蝙九ヨ繝ウ繝阪Ν鬘募セョ髀。シ抵シ夊ェ蟾ア邨郢泌喧蜊伜蟄占
2-4シ主次蟄宣俣蜉幃。募セョ髀。シ托シ夂函菴薙槭け繝ュ蛻蟄舌→陦ィ髱「蜉幄ィ域クャ
2-5シ主次蟄宣俣蜉幃。募セョ髀。シ抵シ壼腰荳蛻蟄占ィ域クャ
2-6シ手ソ第磁蝣エ蜈牙ュヲ鬘募セョ髀。縺ィ縺昴ョ莉悶ョ繝励Ο繝シ繝匁焔豕包シ夊寫蜈牙ッソ蜻ス驕守ィ具シ後励Ο繧ュ繧キ繝溘ユ繧」蜉ケ譫
3.繝翫ヮ繝繧ッ繝弱Ο繧ク繝シ縺ョ髯千阜縺ィ21荳也エ縺ョ譁ー縺励>遘大ュヲ謚陦灘ア墓悍
1.Introduction of Nanotechnology and Nanoscience
2.Scanning Probe Microscopy and Spectroscopy
2-1シ皐istory of Scanning Probe Microscopy (SPM): from Observation to Manipulation
2-2シ惨canning Tunneling Microscopy (STM) 1: Surface Chemistry and Phase Transitions
2-3シ惨canning Tunneling Microscopy (STM) 2: Self-Assembled Monolayers (SAMs)
2-4シ拶tomic Force Microscopy (AFM) 1: Biological Macromolecules and Surface Forces
2-5シ拶tomic Force Microscopy (AFM) 2: Single Molecular Detection (SMD)
2-6シ惨canning Near-Field Optical Microscopy (SNOM) and Other Probe Methods: Fluorescence Decay Process, and Proximity Effect
3.Limits of Nanotechnology and Paradigm Shift for 21C窶冱 Science and Technology
Plan of lecture
1.Introduction of Nanotechnology and Nanoscience
2.Scanning Probe Microscopy and Spectroscopy
1.History of Scanning Probe Microscopy (SPM) : from Observation to Manipulation
2.Scanning Tunneling Microscopy (STM) 1 : Surface Chemistry and Phase Transitions
3.Scanning Tunneling Microscopy (STM) 2 : Self-Assembled Monolayers (SAM)
4.Atomic Force Microscopy (AFM) 1 : Biological Macromolecules and Surface Forces
5.Atomic Force Microscopy (AFM) 2 : Single Molecular Detection (SMD)
6.Scanning Near-Field Optical Microscopy (SNOM) and Other Probe Methods : Fluorescence Decay Process, Proximity Effect and Further Possibilities
3.Characterization of Organic Thin Films
1.Surface Plasmon Resonance (SPR) Spectroscopy and Ellipsometry
2.X-ray Photoelectron Spectroscopy (XPS)
3.Fourier Transform Infrared Spectroscopy (FTIRS)
4.Dynamic Contact Angles : Surface Free Energy
5.How to Characterize Molecular Orientation in Organic Thin Films
