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膜过滤。用于分子分离的超快溶剂传输的亚 10nm 聚酰胺纳滤膜。

MEMBRANE FILTRATION. Sub-10 nm polyamide nanofilms with ultrafast solvent transport for molecular separation.

机构信息

Department of Chemical Engineering, Imperial College London, South Kensington Campus, London SW7 2AZ, UK.

出版信息

Science. 2015 Jun 19;348(6241):1347-51. doi: 10.1126/science.aaa5058.

Abstract

Membranes with unprecedented solvent permeance and high retention of dissolved solutes are needed to reduce the energy consumed by separations in organic liquids. We used controlled interfacial polymerization to form free-standing polyamide nanofilms less than 10 nanometers in thickness, and incorporated them as separating layers in composite membranes. Manipulation of nanofilm morphology by control of interfacial reaction conditions enabled the creation of smooth or crumpled textures; the nanofilms were sufficiently rigid that the crumpled textures could withstand pressurized filtration, resulting in increased permeable area. Composite membranes comprising crumpled nanofilms on alumina supports provided high retention of solutes, with acetonitrile permeances up to 112 liters per square meter per hour per bar. This is more than two orders of magnitude higher than permeances of commercially available membranes with equivalent solute retention.

摘要

需要具有空前溶剂透过率和溶解溶质高保留率的膜来降低有机溶剂分离过程中的能耗。我们使用受控界面聚合在不到 10 纳米厚度的范围内形成独立的聚酰胺纳米薄膜,并将其作为复合膜的分离层。通过控制界面反应条件来操纵纳米薄膜形态,从而形成光滑或皱缩的纹理;纳米薄膜足够坚固,皱缩的纹理可以承受加压过滤,从而增加了可渗透的面积。包含氧化铝支撑上皱缩纳米薄膜的复合膜对溶质具有高保留率,乙腈渗透率高达每小时每平方米每巴 112 升。这比具有等效溶质保留率的商业上可用的膜的渗透率高两个数量级以上。

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