|
|
|
| Untersuchte Arbeit: Seite: 2, Zeilen: 13-20 |
Quelle: Bhattacharya et al. 2008 Seite(n): 1, Zeilen: 2-9 |
|---|---|
| Nanotechnology has created a key revolution in the 21th century exploiting the new properties, phenomena and functionalities exhibited by matters when dealt at the level of few nanometers as opposed to hundred nanometers and above [8]. Nanoscale materials are already recognized as unique because they produce qualitatively new behavior when compared with their macroscopic counterpart. It is understood that when the domain size within the materials becomes comparable with the physical length scale, such as segments of a polymer macromolecule, the expected physical phenomena and the response to any external disturbance do not follow the established principles.
[8] S. N.Bhattacharya, Rahul K. Gupta, Polymeric Nanocomposites Theory and Practice, Hanser 2008 |
Nanotechnology has created a key revolution in the 21st century exploiting the new properties, phenomena and functionalities exhibited by matters when dealt at the level of few nanometers as opposed to hundred nanometers and above. Nanoscale materials are already recognized as unique because they produce qualitatively new behavior when compared with their macroscopic counterparts. It is understood that when the domain size within the materials becomes comparable with the physical length scale, such as segments of a polymer macromolecule, the expected physical phenomena and the response to any external disturbance do not follow the established principles. |
|
|