功能化类金刚石微电极阵列诱导神经细胞可控生长及检测细胞释放物质的研究

项目名称： 功能化类金刚石微电极阵列诱导神经细胞可控生长及检测细胞释放物质的研究

项目编号： No.51272237

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 一般工业技术

项目作者： 刘爱萍

作者单位： 浙江理工大学

项目金额： 80万元

中文摘要： 细胞的新陈代谢和信息传递在有机体生命活动中起着重要作用。微流控芯片或生物传感技术中基底材料的选择对研究细胞的生理过程、受激释放及信息记录起着关键作用。有效调控材料与细胞间的相互作用是当前材料科学和生命科学热点研究的领域之一。本课题提出的"功能化类金刚石微电极阵列诱导神经细胞可控生长及检测细胞释放物质的研究"，一方面通过微加工工艺构建类金刚石微电极阵列的空间网络结构，一方面通过化学小分子和生物蛋白分子功能化电极表面以提供细胞吸附的活性位点，获得透光性好、电化学催化活性高、能够自动调节细胞选择吸附和可控生长的新颖的电极材料。研究电极表面微结构、分子构型、生物力学性质对细胞生理行为的影响机制，探索实现共同检测细胞释放的Ca2+荧光信号和神经递质化学信号的微电极阵列制备的新原理与新技术，为多功能细胞生物传感器的构建与集成提供新方案。

中文关键词： 类金刚石；石墨烯；细胞可控生长；微电极阵列；生物传感器

英文摘要： The cellular metabolism and information transfer play an important role for the biochemical processes of organism. The selection of substrate materials for the Lab-on-a-chip or biosensors affects the physiological processes, excitation release and information record of living beings on the substrate. Therefore, the effective control for the material-cell interaction is the focal point of research in the fields of material science and life science. The controlled growth of neuronal cells induced by functionalized diamond-like carbon microelectrode arrays and cellular release substances detection using the electrode arrays are brought forward in this project and carried out by constructing a diamond-like carbon microelectrode array via a micromachining process and further functionalizing with chemical molecules and biological proteins to provide active spots for cell adhesion. The object is to achieve a novel electrode material with excellent light transmission,electrochemical activity, and favorability for cell selective adsorption and controlled growth. The effect mechanism of electrode factors such as surface microstructure, functional group and biological mechanics upon biochemical processes of cells is investigated. The new principle and technology for fabricating the microelectrode array with synchronous det

英文关键词： Diamond-like carbon；graphene；cell controlled growth；microelectrode array；biosensor