Nanostructured Membranes from Triblock Polymer Precursors as High Capacity Copper Adsorbents

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• 作者：Jacob L. Weidman ; Ryan A. Mulvenna ; Bryan W. Boudouris ; William A. Phillip
• 刊名：Langmuir
• 出版年：2015
• 出版时间：October 13, 2015
• 年：2015
• 卷：31
• 期：40
• 页码：11113-11123
• 全文大小：520K
• ISSN：1520-5827

文摘

Membrane adsorbers are a proposed alternative to packed beds for chromatographic separations. To date, membrane adsorbers have suffered from low binding capacities and/or complex processing methodologies. In this work, a polyisoprene-b-polystyrene-b-poly(N,N-dimethylacrylamide) (PI鈥揚S鈥揚DMA) triblock polymer is cast into an asymmetric membrane that possesses a high density of nanopores (d 鈭?38 nm) at the upper surface of the membrane. Exposing the membrane to a 6 M aqueous hydrochloric acid solution converts the PDMA brushes that line the pore walls to poly(acrylic acid) (PAA) brushes, which are capable of binding metal ions (e.g., copper ions). Using mass transport tests and static binding experiments, the saturation capacity of the PI鈥揚S鈥揚AA membrane was determined to be 4.1 卤 0.3 mmol Cu²⁺ g^鈥?. This experimental value is consistent with the theoretical binding capacity of the membranes, which is based on the initial PDMA content of the triblock polymer precursor and assumes a 1:1 stoichiometry for the binding interaction. The uniformly sized nanoscale pores provide a short diffusion length to the binding sites, resulting in a sharp breakthrough curve. Furthermore, the membrane is selective for copper ions over nickel ions, which permeate through the membrane over 10 times more rapidly than copper during the loading stage. This selectivity is present despite the fact that the sizes of these two ions are nearly identical and speaks to the chemical selectivity of the triblock polymer-based membrane. Furthermore, addition of a pH 1 solution releases the bound copper rapidly, allowing the membrane to be regenerated and reused with a negligible loss in binding capacity. Because of the high binding capacities, facile processing method implemented, and ability to tailor further the polymer brushes lining the pore walls using straightforward coupling reactions, these membrane adsorbers based on block polymer precursors have potential as a separation media that can be designed to a variety of specific applications.