负载CuO阳离子交换树脂复合材料的制备及其对聚丙烯酰胺水溶液的降解

IF 2.1 4区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Polymers & Polymer Composites Pub Date : 2023-11-01 DOI:10.1177/09673911231212803
Ying Wang, Zhiqing Lai, Xueying Yang, Gang Li
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引用次数: 0

摘要

以大孔阳离子交换树脂(CER)为载体,在恒温振荡和水热条件下成功制备了CuO负载阳离子交换树脂复合材料。结果表明,制备的复合材料具有明显的壳核结构。不同NaOH用量影响了树脂表面和内部孔隙中CuO的微观形貌,也影响了Cu元素的百分含量。XRD表征表明产物为单斜晶系CuO,晶粒尺寸约为16 nm。CuO@IER-1g对聚丙烯酰胺(PAM)的最高降解率达到81.94%,6次循环后CuO@CER-1g仍具有良好的光催化活性,降解率的降低是离子交换树脂的吸附和CuO与一系列自由基转移反应形成的电子-空穴对在紫外光下的共同作用。该研究对丰富离子交换理论、发展光催化工业、净化环境具有重要的理论基础和现实意义。
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Preparation of CuO loaded cation exchange resin composites and its degradation of polyacrylamide aqueous solution
Macroporous cation exchange resins (CER) were used as carriers, and CuO loaded cation exchange resin composites was successfully prepared under thermostatic oscillation and hydrothermal conditions. The results showed that the as-prepared composites exhibited obvious shell-core structure. The different amounts of NaOH affected the micro morphology of CuO on the surface and in the internal pores of the resin, and also affected the percentage content of Cu element. XRD characterization clearly revealed that the products were monoclinic crystal system CuO species with a grain size of about 16 nm. The highest degradation rate of polyacrylamide (PAM) by CuO@IER-1g reached 81.94%, after 6 cycles CuO@CER-1g has still good photocatalytic activity, and the decrease in degradation rate was the combined effect from the adsorption of ion exchange resins and the electron-hole pairs formed by CuO and a series of free radical transfer reactions under ultraviolet light. This study has important theoretical basis and practical significance for enriching ion exchange theory, developing the photocatalytic industry, and purifying the environment.
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来源期刊
Polymers & Polymer Composites
Polymers & Polymer Composites 工程技术-材料科学:表征与测试
CiteScore
4.30
自引率
9.50%
发文量
90
审稿时长
5.7 months
期刊介绍: Polymers & Polymer Composites provides a forum for the publication of expertly peer reviewed, international research into the following topics: - Fibre reinforced and particulate filled plastics - Engineering plastics - Nanocomposites - Polymers or polyblends intended for engineering use (including structural, load bearing electronic and electrical applications) - Fibre reinforced and particulate filled plastics - Structural adhesives - Textile & wood fibres - Biomaterials with a load bearing capacity, (including polymer based dental materials)
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