Department of Chemistry, College of Sciences, Shiraz University, Shiraz, Iran.
J Hazard Mater. 2012 Jan 30;201-202:125-31. doi: 10.1016/j.jhazmat.2011.11.048. Epub 2011 Nov 22.
Palladium/hydroxyapatite/Fe(3)O(4) (Pd/HAP/Fe(3)O(4)) nanocatalyst was synthesized and evaluated for its catalytic activity towards the degradation of azo dyes (methyl red, methyl orange and methyl yellow) selected as test dye species. The Pd/HAP/Fe(3)O(4) was employed as a novel catalyst that offers high catalytic activity, magnetic separateability and good stability. It was found that catalytic activity of this catalyst was significantly enhanced under acidic conditions. The degradation mechanism is proposed to be due to the reaction of Pd/HAP/Fe(3)O(4) with dissolved oxygen with the assistance of acid to form a Pd hydroperoxide, which oxidizes azo dyes under HAP catalysis. This in turn shows the clear importance of HAP as the support for the Pd nanocatalyst. The concentrations of dyes change exponentially with time and high rate constants were obtained for the degradation of these dyes. The pseudo-first-order equation was shown to fit degradation kinetics in most cases. Therefore, the Pd/HAP/Fe(3)O(4) nanostructures are considered as a highly efficient and promising catalyst in degradation systems and they can be effectively recovered after use.
钯/羟基磷灰石/Fe(3)O(4) (Pd/HAP/Fe(3)O(4))纳米催化剂被合成并评估其对所选测试染料种类偶氮染料(甲基红、甲基橙和甲基黄)的降解催化活性。Pd/HAP/Fe(3)O(4) 被用作一种新型催化剂,具有高催化活性、磁性分离性和良好的稳定性。研究发现,该催化剂在酸性条件下的催化活性显著增强。降解机理被提出是由于 Pd/HAP/Fe(3)O(4)与溶解氧在酸的辅助下反应形成 Pd 过氧化物,该过氧化物在 HAP 催化下氧化偶氮染料。这反过来又表明 HAP 作为 Pd 纳米催化剂的载体的重要性。染料的浓度随时间呈指数变化,并获得了这些染料降解的高速率常数。在大多数情况下,拟一级方程都显示出与降解动力学的拟合。因此,Pd/HAP/Fe(3)O(4)纳米结构被认为是降解系统中一种高效、有前途的催化剂,并且在使用后可以有效地回收。
