| 초록 |
One-dimensional (1D) nanomaterials have long been of great interest because of their anisotropic optoelectronic properties and their promising applications in broad field of science and technologies. By comparison to their inorganic counterparts, organic nanomaterials offer many advantages such as easy and technically infinite ways of modulating band gap simply by changing side functional groups, and which could be effectively lead to new optical properties. The fabrication of well-defined organic semiconducting nanostructures with controlled geometry and alignment, however, has not been well established yet comparing with their inorganic counter parts. Herein, we present fabrication and characterizations of well-defined organic semiconducting nanowires, which can be applied for patterning and alignment. As a demonstration, we have used rubrene as a building block. |
