非对称性可调控的仿生智能纳米通道研究

项目名称： 非对称性可调控的仿生智能纳米通道研究

项目编号： No.21473213

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 数理科学和化学

项目作者： 田野

作者单位： 中国科学院化学研究所

项目金额： 40万元

中文摘要： 仿生智能纳米通道因其在纳米流体器件、能源转换和生物传感领域具有广阔的应用前景，近年来在国内外引起广泛的研究兴趣。其中结构和组成的非对称性是仿生制备智能纳米通道的关键因素，但是目前对仿生智能纳米通道非对称性调控方面还鲜有报道。本项目拟开展基于结构和组成非对称性可调控的仿生智能纳米通道的研究。通过在结构非对称性可连续调控的聚合物通道两端非对称修饰智能响应性分子，得到一系列结构和组成非对称性可调控的双门控、多响应智能纳米通道，利用测定通道跨膜电流或电势的方法表征其智能离子传输过程,并系统研究非对称结构、组成和功能之间的关系。本计划受生命体内的具有特殊功能的纳米通道的启发，将具有特殊仿生结构的聚合物纳米通道和智能分子作为组成基元进行非对称组装，拟构筑新型的仿生智能离子传输体系。在解决基础科学问题的同时将对发展基于仿生纳米通道体系的智能纳米器件具有重要的指导意义。

中文关键词： 纳米通道；非对称；离子传输；；

英文摘要： Bio-inspired smart nanochannel materials for intelligent control of molecule and ion transports at the nanoscale have attracted extensive research interests in recent years owing to their wide potential applications in nanofluidics, energy conversion, and biosensors. The asymmetry of shape and surface chemical component is the key factor to fabricate bio-inspired smart nanochannels. At present, however, researches on the artificial functional nanochannels with controllable asymmetry still in the early stage, and less works have been reported. In this project, we will build bio-inspired multifunctional nanochannels based on continuous control of the shape and surface properties asymmetry of the nanochannels. Through asymmetrically modifying the two sides of the asymmetric polymeric nanochannels with gradual shape transformation by various smart molecules, a series of double-gated and multi-responsive nanochannels with continuous and controllable asymmetric shape and surface properties will be obtained. The ion translocation process will be characterized via the transmembrane currents or potentials under external stimuli. Relationship among the shape, surface properties and functions of the intelligent nanochannels will be systematically investigated. Inspired by the biological asymmetric ion channels, the applica

英文关键词： nanochannel；asymmetric；ion transport；；