%0 Journal Article
%T Combined-dynamic mode"dip-pen" nanolithography and physically nanopatterning along single DNA molecules
Combined-dynamic mode “dip-pen” nanolithography and physically nanopatterning along single DNA molecules
%A LI Bin
%A WANG Ying
%A WU Haiping
%A ZHANG Yi
%A ZHANG Zhixiang
%A ZHOU Xingfei
%A LI Minqian & HU Jun
%A Shanghai Institute of Applied Physics
%A Chinese Academy of Sciences
%A Shanghai
%A China
%A Shanghai Jiaotong University
%A Bio-X Science Research Center
%A Shanghai
%A China Correspondence should be addressed to Li Minqian
%A
LIBin
%A WANGYing
%A WUHaiping
%A ZHANGYi
%A ZHANGZhixiang
%A ZHOUXingfei
%A LIMinqian
%A HUJun
%J 科学通报(英文版)
%D 2004
%I
%X Atomic force micriscope (AFM)-based dip-pen nanolithography (DPN) is an emerging approach for con-structing nanostructures on material surfaces such as gold, silicon and silicon oxide. Although DPN is a powerful tech-nique, it has not shown its ability of direct-writing and pat-terning of nanostructures on surfaces of soft materials, for example biomacromolecules. Direct depositing on soft sur-faces becomes possible with the introduction of a com-bined-dynamic mode DPN rather than mostly used contact mode DPN or tapping mode DPN. In this report, the com-bined dynamic mode DPN is used for direct depositing pro-tein ink on DNA molecules at the nanometer scale.
%K atomic force microscope (AFM)
%K dip-pen nanolithogra-phy (DPN)
%K single DNA molecules
%K nanostructure
原子力显微镜
%K 浸笔纳米光刻技术
%K 单个DNA分子
%K 纳米结构
%K 材料表面
%K 结合动力模型
%K 纳米图案
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=01BA20E8BA813E1908F3698710BBFEFEE816345F465FEBA5&cid=96E6E851B5104576C2DD9FC1FBCB69EF&jid=DD6615BC9D2CFCE0B6F945E8D5314523&aid=E55ED8C30C77B8D6A0DECBD450B561B7&yid=D0E58B75BFD8E51C&vid=2A3781E88AB1776F&iid=DF92D298D3FF1E6E&sid=D559883475316B44&eid=06DAE5E1DF7D0B6A&journal_id=1001-6538&journal_name=科学通报(英文版)&referenced_num=0&reference_num=14