The hydrothermal treatment time als

The hydrothermal treatment time also influenced on size and morphology of newly formed ZnO nanorods. It can be seen that the newly ZnO formed after hydrothermal treatment for 4, 6 and 8 hrs was flower-like clusters with shape tip petals of ZnO nanorods as seen in Fig. 5(a), (b) and (c), respectively. The amount and the length of nanorods increased with the increase of hydrothermal treatment time however the nanorods’ diameter was not significantly changed. When the hydrothermal treatment time reach to 10 hrs, each petal tip splitted into lots of tiny acicular nanostructure. This phenomenon can be described based on a mechanism of dissolution-regrowth, generally occurring in basic aqueous solution as proposed by Yamabi and Imai [24] and Peterson and Gregg [25]. At pH>9, the ZnO can dissolve in aqueous solution, generating the zinc hydroxide soluble species (e.g. Zn(OH)2, Zn(OH)4 2−, etc) as shown in equation (Eq. 2):