South China Institute of Environmental Science, Ministry of Environmental Protection (MEP), Guangzhou 510655, PR China.
J Hazard Mater. 2013 Dec 15;263 Pt 2:600-9. doi: 10.1016/j.jhazmat.2013.10.022. Epub 2013 Oct 18.
In this study, we adopted the chemical co-precipitation (CP) method and sol-gel method followed by calcination at temperatures of 100-900°C for 12h to synthesize CoFe2O4 materials, which were further characterized by TEM, XRD and XPS techniques. The properties of CoFe2O4 materials were evaluated in a microwave (MW) induced catalytic oxidation (MICO) process for the elimination of brilliant green (BG). The results showed that: (1) the removal rates of BG gradually decreased over a series of CoFe2O4 materials prepared by CP method and calcinated with 100-700°C (except 900°C) for 12h within three reuse cycles; for comparison, no removal of BG was obtained over CoFe2O4 synthesized by sol-gel method and CoFe2O4-900 (CP); (2) no hydroxyl radicals were captured with salicylic acid used as molecular probe in the MICO process; (3) MW irradiation enhanced the release of residual NaOH within the microstructure of CoFe2O4 and further discolored BG, because BG is sensitive to pH; (4) granular activated carbon (GAC), an excellent MW-absorbing material possessing higher dielectric loss tangent compared to that of a series of CoFe2O4 materials, could not remove BG in suspensions at a higher efficiency, even if the loading amount was 20 g L(-1). Accordingly, MICO process over CoFe2O4 materials and GAC could not effectively eliminate BG in suspensions.
在这项研究中,我们采用化学共沉淀(CP)法和溶胶-凝胶法,然后在 100-900°C 的温度下煅烧 12 小时,合成了 CoFe2O4 材料,并通过 TEM、XRD 和 XPS 技术对其进行了表征。我们在微波(MW)诱导催化氧化(MICO)过程中评估了 CoFe2O4 材料的性能,以去除碱性绿(BG)。结果表明:(1)通过 CP 法制备的一系列 CoFe2O4 材料,在 100-700°C(900°C 除外)下煅烧 12 小时后,在三个重复使用周期内,BG 的去除率逐渐降低;相比之下,通过溶胶-凝胶法和 CoFe2O4-900(CP)合成的 CoFe2O4 没有去除 BG;(2)在 MICO 过程中,使用水杨酸作为分子探针,没有捕获到羟基自由基;(3)MW 辐射增强了 CoFe2O4 微结构中残留 NaOH 的释放,进一步使 BG 褪色,因为 BG 对 pH 敏感;(4)颗粒活性炭(GAC)是一种优良的 MW 吸收材料,介电损耗正切值高于一系列 CoFe2O4 材料,但即使在 20 g L(-1)的高负载量下,也不能有效地在悬浮液中去除 BG。因此,CoFe2O4 材料和 GAC 的 MICO 过程不能有效地去除悬浮液中的 BG。
