나노소재분석 (2011년 2학기)

서울대학교
니콜라 핀나

페이스북 트위터 카카오톡 네이버밴드 링크복사

주제분류

공학 >화공 >화학공학
강의학기

2011년 2학기

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4,634

The precise characterization of nanomaterials is a prerequisite for the understanding of their physical properties. This subject teaches the principles and the application of various characterization techniques to inorganic nanomaterials (even though many of them can be applied to organic and hybrid materials as well). Tentative topical coverage: scanning and transmission electron microscopy (e.g. high resolution, electron diffraction) and related techniques (electron energy loss spectrometry, energy-dispersive X-ray spectroscopy), diffraction techniques, scanning probe techniques (STM, AFM, etc.), spectroscopic techniques (e.g. solid state NMR, XPS, X-ray absorption).

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Surface science techniques (e.g. XPS - AES)

차시별 강의

1.	Introduction to the characterization of nanomaterials	Introduction to the characterization of nanomaterials showing why it is important to carefully characterize nanoparticles. Structure-Property relationship
2.	Interaction radiation with matter	Introduction to the interaction between e.g. electrons, photons and the specimens
3.	Interaction radiation with matter	Introduction to the interaction between e.g. electrons, photons and the specimens
4.	Surface science techniques (e.g. XPS - AES)	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
5.	Surface science techniques (e.g. XPS - AES)	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
	Surface science techniques (e.g. XPS - AES)	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
6.	Electron microscopy techniques (e.g. SEM - TEM)	Introduction to electron microscopy techniques such as SEM and TEM
7.	Electron microscopy techniques (e.g. SEM - TEM)	Introduction to electron microscopy techniques such as SEM and TEM
8.	Electron microscopy techniques (e.g. SEM - TEM)	Introduction to electron microscopy techniques such as SEM and TEM
9.	Electron energy loss spectrometry	Introduction to Electron energy loss spectrometry
10.	Diffraction Techniques (e.g. XRD, SAED)	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
11.	Diffraction Techniques (e.g. XRD, SAED)	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
12.	Surface Probe Techniques	Introduction to electron microscopy techniques for the study of nanomaterials with the enphasis on SEM, TEM and spectroscopic techniques that can be applied under a microscope
13.	Selected examples	Introduction of diffraction techniques applied to nanomaterials. Especially the features brought by the nano-size are discussed emphasising the information that can be acquired on the size and shape as well crystalline structure of the nanoobjects
14.	Selected examples	Introduction of diffraction techniques applied to nanomaterials. Especially the features brought by the nano-size are discussed emphasising the information that can be acquired on the size and shape as well crystalline structure of the nanoobjects
15.	Examination	Oral examination