Division of Textile Chemistry & Ecology, School of Textile Science and Engineering, Tianjin Polytechnic University, Tianjin 300160, China.
Sci Total Environ. 2010 Apr 15;408(10):2245-53. doi: 10.1016/j.scitotenv.2010.01.020. Epub 2010 Feb 18.
Polyacrylonitrile (PAN) fiber was modified with hydroxylamine hydrochloride to introduce amidoxime groups onto the fiber surface. These amidoxime groups were used to react with Fe (III) ions to prepare Fe (III)-amidoximated PAN fiber complex, which was characterized using SEM, XRD, FTIR, XPS, DMA, and DRS respectively. Then the photocatalytic activity of Fe-AO-PAN was evaluated in the degradation of a typical azo dye, C. I. Reactive Red 195 in the presence of H(2)O(2) under visible light irradiation. Moreover, the effect of the Fe content of Fe-AO-PAN on dye degradation was also investigated. The results indicated that Fe (III) ions can crosslink between the modified PAN fiber chains by the coordination of Fe (III) ions with the amino nitrogen atoms and hydroxyl oxygen atoms of the amidoximation groups to form Fe (III)-amidoximated PAN fiber complex, and the Fe content of which is mainly determined by Fe (III) ions and amidoximation groups. Fe (III)-amidoximated PAN fiber complex is found to be activated in the visible light region. Moreover, Fe (III)-amidoximated PAN fiber complex shows the catalytic activity for dye degradation by H(2)O(2) at pH=6.0 in the dark, and can be significantly enhanced by increasing light irradiation and Fe content, therefore, it can be used as a new heterogeneous Fenton photocatalyst for the effective decomposition of the dye in water. In addition, ESR spectra confirm that Fe (III)-amidoximated PAN fiber complex can generate more OH radicals from H(2)O(2) under visible light irradiation, leading to dye degradation. A possible mechanism of photocatalysis is proposed.
聚丙烯腈(PAN)纤维用盐酸羟胺进行改性,在纤维表面引入偕胺肟基团。这些偕胺肟基团与 Fe(III)离子反应,制备 Fe(III)-偕胺肟化 PAN 纤维配合物,分别采用 SEM、XRD、FTIR、XPS、DMA 和 DRS 进行表征。然后,在可见光照射下,在 H2O2 的存在下,评估了 Fe-AO-PAN 的光催化活性在典型偶氮染料 C.I.活性红 195 的降解中的应用。此外,还研究了 Fe-AO-PAN 中 Fe 含量对染料降解的影响。结果表明,Fe(III)离子可以通过 Fe(III)离子与偕胺肟基团的氨基氮原子和羟基氧原子的配位交联改性 PAN 纤维链,形成 Fe(III)-偕胺肟化 PAN 纤维配合物,其 Fe 含量主要由 Fe(III)离子和偕胺肟基团决定。发现 Fe(III)-偕胺肟化 PAN 纤维配合物在可见光区被激活。此外,Fe(III)-偕胺肟化 PAN 纤维配合物在黑暗中通过 H2O2 在 pH=6.0 时显示出对染料降解的催化活性,并且通过增加光照和 Fe 含量可以显著增强,因此,它可用作一种新型的非均相芬顿光催化剂,用于有效分解水中的染料。此外,ESR 谱图证实,在可见光照射下,Fe(III)-偕胺肟化 PAN 纤维配合物可以从 H2O2 中产生更多的 OH 自由基,导致染料降解。提出了一种可能的光催化机理。
