Raman spectroscopy as an advanced structural nanoprobe for conjugated molecular semiconductors
2017-02-04
org.kosen.entty.User@777a5f1
육종설(jsyuk)
행사&학회소개
1. Introduction
1.1. Conjugated molecular semiconductors
1.2. Morphological and in situ characterization
1.3. Applicability of Raman spectroscopy
2. Raman scattering of conjugated molecules
2.1. Theory of Raman scattering
2.1.1. Outline of classical theory
2.1.2. Quantum mechanical interpretation
2.1.3. Raman scattering of conjugated molecules
2.1.4. Polarisation dependence of Raman scattering
2.2. Experimental Raman spectroscopy
2.2.1. Non-resonant Raman spectroscopy
2.2.2. Resonant Raman spectroscopy
3. Non-resonant and polarised Raman spectroscopy
3.1. Probing molecular structure and conformation
3.1.1. Heteroatom substitution and fluorination
3.1.2. Side group modification
3.1.3. Hydrostatic pressure
3.1.4. Processing conditions
3.1.5. Chemical composition mapping
3.2. Probing molecular orientation
4. Resonant Raman spectroscopy
5. In situ characterization
6. Emerging techniques
7. Conclusion and outlook
1.1. Conjugated molecular semiconductors
1.2. Morphological and in situ characterization
1.3. Applicability of Raman spectroscopy
2. Raman scattering of conjugated molecules
2.1. Theory of Raman scattering
2.1.1. Outline of classical theory
2.1.2. Quantum mechanical interpretation
2.1.3. Raman scattering of conjugated molecules
2.1.4. Polarisation dependence of Raman scattering
2.2. Experimental Raman spectroscopy
2.2.1. Non-resonant Raman spectroscopy
2.2.2. Resonant Raman spectroscopy
3. Non-resonant and polarised Raman spectroscopy
3.1. Probing molecular structure and conformation
3.1.1. Heteroatom substitution and fluorination
3.1.2. Side group modification
3.1.3. Hydrostatic pressure
3.1.4. Processing conditions
3.1.5. Chemical composition mapping
3.2. Probing molecular orientation
4. Resonant Raman spectroscopy
5. In situ characterization
6. Emerging techniques
7. Conclusion and outlook
보고서작성신청
시료를 파괴하지 않고 분석할 수 있는 라만 분광법은 특별한 시료 준비 과정을 필요로하지 않으며 다양한분야의 in situ 측정에 사용되고 있는 유용한 방법이다. 최근 분자 반도체 물질의 탐침을 위한 유용한분석 도구로 각광받고 있다. 본 리뷰 논문은 다양한 종류의 라만 분광 방법을 소개하고 있으며 분자 반도체 연구에 응용 사례과 최근 연구 동향을 자세히 소개하고 있어 라만 분광 방법을 사용하는 관련 연구자들에게 유익한 정보를 제공하고 있다.