| 1. | Introduction | The introduction was intended to motivate students for the importance of the topic. Many organic nanomaterial properties can be designed and related to their molecular structure. Examples were given. | ||
| 2. | Forces & Adsorption at Interfaces | Motviated by biology, the introduction into organic nanomaterials was followed by the self-assembly process of amphiphilic molecules. At first, looking at the structures of lipid membranes and their historic discovery. | ||
| 3. | Micelles | Designing appropriate chemical amphiphilic structures will lead to a change of the obtained superstructure. As a first example, the formation of micelles has been given. Also the concept of critical micelle concentration has been covered | ||
| 4. | MOFs | Metal-organic frameworks have received a lot of attention recently. Thus, they will covered in detail in the class. Their porosity and the resulting applications will be discussed. | ||
| 5. | MOFs | Metal-organic frameworks have received a lot of attention recently. Thus, they will covered in detail in the class. Their porosity and the resulting applications will be discussed. | ||
| 6. | |
Supramolecular Chemistry | The concept of supramolecular assemblies had been covered. Different interactions have been described, ranging from host-guest, crown-ethers and hydrogen-bonds has been described. Examples showed the importance. |  |
| 7. | Supramolecular Chemistry | The concept of supramolecular assemblies had been covered. Different interactions have been described, ranging from host-guest, crown-ethers and hydrogen-bonds has been described. Examples showed the importance. | ||
| 8. | Dyes | Dyes are an important class of nanomaterials. Not only are they used for coloring products, they are also important in a variety of technological applications, such as LEDs, OPVs etc. Examples will be discussed. | ||
| 9. | Dyes | Dyes are an important class of nanomaterials. Not only are they used for coloring products, they are also important in a variety of technological applications, such as LEDs, OPVs etc. Examples will be discussed. | ||
| 10. | Liquid Crystals | Liquid crystals represent a unique calss of organic nanomaterials. Their self-organization and their rich phases are the reaason for their broad technological application. Examples will be given. Concepts of order will be explained. | ||
| 11. | Oligomers | Besides small organic molecules, also oligomeric compounds find application as organic nanomaterials. Examples and differences to small molecules will be discussed. | ||
| 12. | Polymers | Polymers, even though topic of many other lectures, will be shortly covered in the class. Basic synthetic routes as well as the self-organizing behavior of block copolymers will be discussed. | ||
| 13. | Semiconducting Organic Nanomaterials | Future application rely on semiconducting organic materials. As such the synthesis of the many different materials will be described. This includes PVP, PP, PA, and others. | ||
| 14. | Semiconducting Organic Nanomaterials | Future application rely on semiconducting organic materials. As such the synthesis of the many different materials will be described. This includes PVP, PP, PA, and others. | ||
| 15. | Exam | The exam will guarantee that students understood the broad variety of concepts of organic nanomaterials chemistry. | ||
|
전체 강의 보충 자료(1) |  |
||
|
전체 강의 보충 자료(2) | |
||
|
전체 강의 보충 자료(3) | |
||
|
전체 강의 보충 자료(4) | |
||
|
전체 강의 보충 자료(5) | |
||
|
전체 강의 보충 자료(6) | |
대구광역시 동구 동내로 64(동내동 1119) 우)41061
COPYRIGHT keris. all rights reserved
페이스북
트위터
카카오톡
네이버밴드
링크복사
