Prominent Visible Light Photocatalytic and Water Purification Activity of PbS/CdS/CdO Nanocomposite Synthesized via Simple Co-Precipitation Method

M. Sabet, M. Mohammadi, Fatemeh Googhari
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引用次数: 3

Abstract

Due to unique chemical and physical properties and potential application in many fields, nanostructured materials have attracted many attentions. Cadmium sulfide (CdS) is a semiconductor that has a wide band gap of 2.42 eV at room temperature and can be served in solar cells and photoluminescence devices. Cadmium sulfide (CdS) is a kind of attractive semiconductor material, and it is now widely used for optoelectronic applications. CdS nano and microstructures can be synthesized via different chemical methods such as microwave-solvothermal synthesis, surfactant-ligand coassisting solvothermal method and hydrothermal route. Also different morphologies of this semiconductor such as dendrites, nanorods, sphere-like, flakes, nanowires, flower-like shape triangular and hexagonal plates, were synthesized. To synthesis of the nanocomposite, a simple co-precipitation method was served. In briefly, 0.1 g of Pb(NO3)2 was dissolved in the distilled water (Solution 1). Also different aqueous solutions were made from dissolving different mole ratio of Cd(NO3)2.6H2O respect to the lead source in the water (Solution 2). Two solutions were mixed together under vigorous stirring and then S2- solution (0.02 g thiourea in the water) was added to the Pb2+/Cd2+ solution. After that 0.1 g of CTAB as surfactant was added to the final solution. Finally to the synthesis of both sulfide and oxide nanostructures, NaOH solution was added to the prepared solution to obtain pH= 10. Distilled water and absolute ethanol were used to wash the obtained precipitate and then it dried at 80 °C for 8 h. From the XRD pattern it was found that the peaks placed at 24.9°, 27°, 44.1°, 48°, 52°, 54°, 57.8°, 66.8°, 71.2° are associated to CdS compound with hexagonal phase (JCPDS=00-001-0780) that belong to (100), (002), (110), (103), (112), (201), (202), (203), (211) Miller indices respectively. The Other peaks belong to PbS with hexagonal phase (JCPDS=01-078-1897), and CdO with cubic phase (JCPDS=00-001-1049). From SEM images, it was found by choosing the mole ratio to 1:1, very small and uniform particles were achieved. By increasing Pb2+/Cd2+ mole ratio to 1:2, very tiny particles aggregated together were achieved. The results showed that the product can adsorb extra 80% of heavy metal ions from the water. So it can be said that the nanocomposite can be used in the water treatment due to its high photocatalytic and surface adsorption activities. In other words, it can remove heavy metals from the water and also decompose organic pollutions.
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简单共沉淀法合成的PbS/CdS/CdO纳米复合材料的可见光催化和水净化活性
纳米结构材料由于其独特的化学和物理性质以及在许多领域的潜在应用,引起了人们的广泛关注。硫化镉(cd)是一种在室温下具有2.42 eV宽禁带隙的半导体材料,可用于太阳能电池和光致发光器件。硫化镉(cd)是一种极具吸引力的半导体材料,目前已广泛应用于光电子领域。采用微波-溶剂热法、表面活性剂-配体助溶法、溶剂热法和水热法等不同的化学方法可以合成CdS的纳米结构和微观结构。此外,还合成了这种半导体的不同形态,如枝晶、纳米棒、球形、薄片、纳米线、花状三角形和六角形板。采用一种简单的共沉淀法合成了纳米复合材料。简单地说,将0.1 g的Pb(NO3)2溶解在蒸馏水(溶液1)中,并将Cd(NO3)2.6H2O相对于铅源(溶液2)的不同摩尔比溶解成不同的水溶液。两种溶液在剧烈搅拌下混合,然后将S2-溶液(水中含有0.02 g硫脲)加入到Pb2+/Cd2+溶液中。在最终溶液中加入0.1 g CTAB保证剂。最后在制备好的溶液中加入NaOH溶液,得到pH= 10,以合成硫化物和氧化结构。用蒸馏水和无水乙醇洗涤所得沉淀物,80℃干燥8 h。XRD谱图表明,在24.9°、27°、44.1°、48°、52°、54°、57.8°、66.8°、71.2°处的峰为六方相CdS化合物(JCPDS=00-001-0780),分别属于米勒指数(100)、(002)、(110)、(103)、(112)、(201)、(202)、(203)、(211)。其他峰属于六方相的PbS (JCPDS=01-078-1897)和立方相的CdO (JCPDS=00-001-1049)。从SEM图像中可以发现,选择摩尔比为1:1时,可以得到非常小而均匀的颗粒。通过将Pb2+/Cd2+的摩尔比增加到1:2,可以得到非常微小的颗粒聚集在一起。结果表明,该产品可额外吸附水中80%的重金属离子。因此,纳米复合材料具有较高的光催化活性和表面吸附活性,可用于水处理。换句话说,它可以去除水中的重金属,也可以分解有机污染物。
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