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用环糊精聚合物对电纺聚酯纳米纤维进行表面改性,用于从水溶液中去除菲。

Surface modification of electrospun polyester nanofibers with cyclodextrin polymer for the removal of phenanthrene from aqueous solution.

机构信息

UNAM-Institute of Materials Science & Nanotechnology, Bilkent University, Ankara 06800, Turkey.

出版信息

J Hazard Mater. 2013 Oct 15;261:286-94. doi: 10.1016/j.jhazmat.2013.07.041. Epub 2013 Jul 25.

DOI:10.1016/j.jhazmat.2013.07.041
PMID:23959248
Abstract

Surface modified electrospun polyester (PET) nanofibers with cyclodextrin polymer (CDP) were produced (PET/CDP). CDP formation onto electrospun PET nanofibers was achieved by polymerization between citric acid (CTR, crosslinking agent) and cyclodextrin (CD). Three different types of native CD (α-CD, β-CD and γ-CD) were used to form CDP. Water-insoluble crosslinked CDP coating was permanently adhered onto the PET nanofibers. SEM imaging indicated that the nanofibrous structure of PET mats was preserved after CDP surface modification process. PET/CDP nanofibers have shown rougher/irregular surface and larger fiber diameter when compared to untreated PET nanofibers. The surface analyses of PET/CDP nanofibers by XPS elucidated that CDP was present on the fiber surface. DMA analyses revealed the enhanced mechanical properties for PET/CDP where PET/CDP nanofibers have shown higher storage modulus and higher glass transition temperature compared to untreated PET nanofibers. The surface area of the PET/CDP nanofibers investigated by BET measurements showed slight decrease due to the presence of CDP coating compared to pristine PET nanofibers. Yet, it was observed that PET/CDP nanofibers were more efficient for the removal of phenanthrene as a model polycyclic aromatic hydrocarbon (PAH) from aqueous solution when compared to pristine PET nanofibers. Our findings suggested that PET/CDP nanofibers can be a very good candidate as a filter material for water purification and waste treatment owing to their very large surface area as well as inclusion complexation capability of surface associated CDP.

摘要

表面改性的聚酯(PET)纳米纤维与环糊精聚合物(CDP)的制备(PET/CDP)。通过柠檬酸(CTR,交联剂)和环糊精(CD)之间的聚合反应将 CDP 形成到静电纺丝 PET 纳米纤维上。三种不同类型的天然 CD(α-CD、β-CD 和 γ-CD)用于形成 CDP。不溶于水的交联 CDP 涂层永久地粘附在 PET 纳米纤维上。SEM 成像表明,在 CDP 表面改性过程后,PET 毡的纳米纤维结构得以保留。与未处理的 PET 纳米纤维相比,PET/CDP 纳米纤维的表面更粗糙/不规则,纤维直径更大。XPS 对 PET/CDP 纳米纤维的表面分析表明 CDP 存在于纤维表面。DMA 分析表明,与未处理的 PET 纳米纤维相比,PET/CDP 纳米纤维具有增强的机械性能,其中 PET/CDP 纳米纤维具有更高的储能模量和更高的玻璃化转变温度。通过 BET 测量研究的 PET/CDP 纳米纤维的表面积由于 CDP 涂层的存在与原始 PET 纳米纤维相比略有下降。然而,观察到与原始 PET 纳米纤维相比,PET/CDP 纳米纤维更有效地从水溶液中去除菲作为模型多环芳烃(PAH)。我们的研究结果表明,由于其非常大的表面积以及表面相关 CDP 的包合能力,PET/CDP 纳米纤维可以作为水净化和废水处理的过滤材料的良好候选材料。

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