Dip-pen刻蚀技术直接构建聚-L-赖氨酸纳米结构

Dip-pen纳米刻蚀技术(简称DPN技术)为在目标基底上沉积一个有序或连续的图案提供了一条简单而有效的途径，DPN技术是一种直接书写的扫描探针刻蚀技术，它使用原子力显微镜探针针尖，在一定的驱动力下，直接将化学试剂“墨水”转移到目标基底上．近年来，利用DPN技术已经成功地实现了多种“墨水一基底”组合。

Direct Construction of Poly-L-lysine Nanostructure by Dip-pen Nanolithography

Dip-pen nanolithography(DPN) has been developed to pattern monolayer film of various molecules in submicrometer dimensions through the controlled movement of ink-coated atomic force microscopy(AFM) tip on a desired substrate, which makes DPN a potentially powerful tool for making the functional nanoscale devices. In this letter, using direct-write dip-pen nanolithography to generate nanoscale patterns of poly-L-lysine on mica was described. Poly-L-lysine molecules can anchor themselves to the mica surface through electrostatic interaction force, so stable poly-L-lysine patterns, such as square, line, circle and cross, could be obtained on freshly cleaved mica surface. From AFM image of the patterned poly-L-lysine nanostructures on mica, we know that poly-L-lysine was flatly bound to the mica surface. These oriented patterns of poly-L-lysine on mica can provide the prospect of building functional nanodevices and offer new options for this technique in a variety of other significant biomolecules.