Yuan Bao-ling, Li Xiang-zhong, Graham Nigel
Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hong Kong, China.
Chemosphere. 2008 May;72(2):197-204. doi: 10.1016/j.chemosphere.2008.01.055. Epub 2008 Mar 14.
The photocatalytic degradation of dimethyl phthalate (DMP) in aqueous TiO2 suspension under UV illumination has been investigated using oxygen (O2) and ferrate (Fe(VI)) as electron acceptors. The experiments demonstrated that Fe(VI) was a more effective electron acceptor than O2 for scavenging the conduction band electrons from the surface of the catalyst. Some major intermediate products from DMP degradation were identified by HPLC and GC/MS analyses. The analytical results identified dimethyl 3-hydroxyphthalate and dimethyl 2-hydroxyphthalate as the two main intermediate products from the DMP degradation in the TiO2-UV-O2 system, while in contrast phthalic acid was found to be the main intermediate product in the TiO2-UV-Fe(VI) system. These findings indicate that DMP degradation in the TiO2-UV-O2 and TiO2-UV-Fe(VI) systems followed different reaction pathways. An electron spin resonance analysis confirmed that hydroxyl radicals existed in the TiO2-UV-O2 reaction system and an unknown radical species (most likely an iron-oxo species) is suspected to exist in the TiO2-UV-Fe(VI) reaction system. Two pathway schemes of DMP degradation in the TiO2-UV-O2 and TiO2-UV-Fe(VI) reaction systems are proposed. It is believed that the radicals formed in the TiO2-UV-O2 reaction system preferably attack the aromatic ring of the DMP, while in contrast the radicals formed in the TiO2-UV-Fe(VI) reaction systems attack the alkyl chain of DMP.
在紫外光照射下,以氧气(O₂)和高铁酸盐(Fe(VI))作为电子受体,研究了邻苯二甲酸二甲酯(DMP)在TiO₂水悬浮液中的光催化降解。实验表明,在清除催化剂表面导带电子方面,Fe(VI)是比O₂更有效的电子受体。通过HPLC和GC/MS分析鉴定了DMP降解的一些主要中间产物。分析结果表明,在TiO₂-UV-O₂体系中,3-羟基邻苯二甲酸二甲酯和2-羟基邻苯二甲酸二甲酯是DMP降解的两种主要中间产物,而在TiO₂-UV-Fe(VI)体系中,邻苯二甲酸是主要中间产物。这些发现表明,DMP在TiO₂-UV-O₂和TiO₂-UV-Fe(VI)体系中的降解遵循不同的反应途径。电子自旋共振分析证实,TiO₂-UV-O₂反应体系中存在羟基自由基,并且怀疑TiO₂-UV-Fe(VI)反应体系中存在一种未知的自由基物种(很可能是一种铁氧物种)。提出了TiO₂-UV-O₂和TiO₂-UV-Fe(VI)反应体系中DMP降解的两种途径方案。据信,TiO₂-UV-O₂反应体系中形成的自由基优先攻击DMP的芳香环,而TiO₂-UV-Fe(VI)反应体系中形成的自由基则攻击DMP的烷基链。
