Although numerous methods were already practically used for heavy

Although numerous methods were already practically used for heavy metal small molecule library screening removal from aqueous Selleck HDAC inhibitor solutions, adsorption techniques have come to the forefront and are effective and economical [17]. However, NMOs are poor in mechanical strength and unfeasible in flow-through system. On the contrary, ZnO branched submicrorods on carbon fibers (ZOCF) can be employed as a complex adsorbent with the desired mechanical strength by using NMOs as host

resources in permeable supports [18]. Moreover, ZnO has been considered as a promising material because of its morphological variety with nontoxic property. It is very interesting to study the removal of Pb(II) by hierarchical ZnO structures. In this work, we prepared hierarchically integrated ZnO branched submicrorods on ZnO seed-coated carbon fibers by a simple ED method and investigated their structural and optical properties. An environmental feasibility of using ZOCF for the removal of Pb(II) metals was

tested. Methods All chemicals, which were of analytical grade, were purchased from Sigma-Aldrich (St. Louis, MO, USA) and used without further purification. The Akt inhibitor ZOCF fabrication procedure is shown in Figure 1: (i) the preparation of carbon fiber substrate, (ii) the ZnO seed-coated carbon fiber substrate (i.e., seed/carbon fiber), and (iii) the ZnO submicrorods on the seed/carbon fibers (i.e., ZOCF). The ZOCF was prepared by a simple ED process at low temperature. The ED method was carried out with a two-electrode system in which the platinum those mesh/working sample acted as the cathodic electrode/anodic electrode, respectively. Practically, such simple method may be useful and reliable for synthesizing metal oxide nanostructures [19, 20]. In this experiment, the industrially available carbon fiber sheet, which was made from carbonized polyacrylonitrile (PAN) microfibers by a heat treatment, was chosen as a substrate. To prepare the substrate, carbon fiber sheets of 2 × 3 cm2 were cleaned by rinsing with ethanol and deionized (DI) water in an ultrasonic bath at 60°C. After air drying at room temperature for 1 h, the

sample was immersed into the ZnO seed solution and pulled up carefully. Here, the seed solution was prepared by dissolving 10 mM of zinc acetate dehydrate and 1 mL of sodium dodecyl sulfate solution in 50 mL of ethanol. For good adhesion, the sample was heated in oven at 130°C. Meanwhile, the growth solution was prepared by mixing 10 mM of zinc nitrate hexahydrate and 10 mM of hexamethylenetetramine in 900 mL of DI water with a magnetic stirrer at 74°C to 76°C. In order to grow the ZnO submicrorods on the carbon fibers, the seed-coated sample was dipped into the aqueous growth solution, and an external cathodic voltage of −3 V was applied between two electrodes for 40 min. Then, the sample was pulled out slowly and cleaned by flowing DI water.

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