With the rapid development of indus

With the rapid development of industrialization, certain hazardous effects on environment and human survival have emerged besides its benefit. Effluents from the use of pesticides, the textile,petrochemical, dyeing, plastic and paper industries are high toxic, carcinogenic and recalcitrant (Anandan, 2008; Lam, Sin, & Mohamed, 2010), and yet not readily degradable. Environmental purification has increasingly become a global concern calling for considerable attention. In recent years, many strategies have been devised to remove these pollutants, including treatment methods such as biological oxidation, chemical and physical methods for degradation of these effluents
However, these traditional methods are often costly, may cause secondary pollution,thus greatly limiting their large-scale implementation. More efficient and economic methods need to be developed. The initial discovery of photoelectrochemical water splitting on TiO2 electrodes by Fujishima and Honda (1972), opened a new area in the destruction of organic pollutions. Photocatalytic oxidation is an alternative means for pollutant treatment in air and
in water, and heterogeneous photocatalysis by semiconductors has attracted much attention
Among the various semiconducting photocatalysts, TiO2 has been the focus due to its non-toxicity, photoelectric
conversion, photocatalytic activity and high stability
However, photoefficiency and photoresponse of TiO2 are not sufficient to compensate for its low photon utilization efficiency, small surface area and narrow spectrum responsive range ( < 388 nm). Compared to TiO2 powder, TiO2 nanotubes (TNTs) have both large surface area and high adsorptive capacity, both serving to improve photoelectric conversion efficiency and photocatalytic property of TiO2 To improve photocatalytic efficiency, different methods
have been proposed, such as modification with metal ions doping non-metals (Park, Kim, & Bard, 2006) and semiconductor nanoparticle modification.
Researchers found that the addition of co-sorbent carbon materials
can enhance the photocatalytic efficiency of TiO2. As a new member of the carbon family, carbon nanotubes (CNTs) with one-dimensional and hollow structure have received considerable interest since their discovery (Iijima, 1991) due to their outstanding structural characters, e.g., mechanical strength
properties and thermal stability