Sun Daoheng, Chang Chieh, Li Sha, Lin Liwei
Department of Mechanical Engineering, Berkeley Sensor and Actuator Center, University of California, Berkeley, California 94720, USA.
Nano Lett. 2006 Apr;6(4):839-42. doi: 10.1021/nl0602701.
A near-field electrospinning (NFES) process has been developed to deposit solid nanofibers in a direct, continuous, and controllable manner. A tungsten electrode with tip diameter of 25 microm is used to construct nanofibers of 50-500 nm line width on silicon-based collectors while the liquid polymer solution is supplied in a manner analogous to that of a dip pen. The minimum applied bias voltage is 600 V, and minimum electrode-to-collector distance is 500 microm to achieve position controllable deposition. Charged nanofibers can be orderly collected, making NFES a potential tool in direct write nanofabrication for a variety of materials.
一种近场电纺丝(NFES)工艺已被开发出来,用于以直接、连续且可控的方式沉积固体纳米纤维。使用尖端直径为25微米的钨电极,在基于硅的收集器上构建线宽为50 - 500纳米的纳米纤维,同时以类似于蘸水笔的方式供应液态聚合物溶液。施加的最小偏置电压为600伏,电极与收集器之间的最小距离为500微米,以实现位置可控的沉积。带电纳米纤维可以有序收集,这使得近场电纺丝成为用于多种材料的直接写入纳米制造中的一种潜在工具。