复合块聚合物-微加工硅纳米多孔膜。
Composite block polymer-microfabricated silicon nanoporous membrane.
机构信息
Department of Pharmaceutics, University of Minnesota, Minneapolis, Minnesota 55455, USA.
出版信息
ACS Appl Mater Interfaces. 2009 Apr;1(4):888-93. doi: 10.1021/am900013v.
Abstract
Block polymers offer an attractive route to densely packed, monodisperse nanoscale pores. However, their fragility as thin films complicates their use as membranes. By integrating a block polymer film with a thin (100 microm) silicon substrate, we have developed a composite membrane providing both nanoscale size exclusion and fast transport of small molecules. Here we describe the fabrication of this membrane, evaluate its mechanical integrity, and demonstrate its transport properties for model solutes of large and small molecular weight. The ability to block large molecules without hindering smaller ones, coupled with the potential for surface modification of the polymer and the microelectromechanical system style of support, makes this composite membrane an attractive candidate for interfacing implantable sensing and drug-delivery devices with biological hosts.
摘要
嵌段聚合物为制备密集、单分散纳米级孔提供了一条有吸引力的途径。然而,作为薄膜,它们很脆弱,这使得它们的应用变得复杂。通过将嵌段聚合物薄膜与薄(100 微米)硅基底集成,我们开发了一种复合膜,为小分子提供了纳米级尺寸排阻和快速传输。在这里,我们描述了这种膜的制造,评估了其机械完整性,并展示了其对大分子量和小分子量模型溶质的传输性质。这种复合膜能够阻挡大分子而不妨碍小分子,加上聚合物的表面改性和微机电系统风格的支撑的潜力,使得这种复合膜成为将可植入传感和药物输送装置与生物宿主接口的有吸引力的候选物。
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