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介孔 TiO2 的水热法制备及其对甲基橙和 Cr(VI)的吸附

Adsorption of methyl orange and Cr(VI) on mesoporous TiO2 prepared by hydrothermal method.

机构信息

Chemistry & Environment Science College, Inner Mongolia Normal University, Key Laboratory of Physics and Chemistry of Function Materials, Inner Mongolia, Huhhot, China.

出版信息

J Hazard Mater. 2010 Sep 15;181(1-3):204-10. doi: 10.1016/j.jhazmat.2010.04.117. Epub 2010 May 7.

DOI:10.1016/j.jhazmat.2010.04.117

PMID:20510510

Abstract

Mesoporous TiO(2) was synthesized by a hydrothermal method using cetyltrimethyl ammonium bromide (CTAB) as a structure-directing agent, and its adsorption abilities for the removal of methyl orange (MO) and Cr(VI) from waste waters were investigated. Transmission electron micrograph (TEM) observations together with nitrogen adsorption-desorption measurements show the formation of mesoporous TiO(2) with an average pore size of 5.2 nm and a surface area of 161.2 m(2)/g. The adsorption data for both MO and Cr(VI) fit well with either Langmuir or Freundlich adsorption model. The adsorption for MO is slightly influenced by pH of the solutions, while that for Cr(VI) is strongly dependent on solution pH. By an increase in solution pH from 3 to 12, the adsorbed percentage of MO decreases from ca. 87 to 78%; however, the adsorbed percentage of Cr(VI) decreases from ca. 45 to 0%. The maximum adsorption capacities of the mesoporous TiO(2) for MO and Cr(VI) are determined to be 454.5 and 33.9 mg/g, respectively, which suggests that the mesoporous TiO(2) is an excellent adsorbent for MO and Cr(VI).

摘要

介孔 TiO(2) 通过水热法合成，使用十六烷基三甲基溴化铵 (CTAB) 作为结构导向剂，并研究了其对废水中甲基橙 (MO) 和 Cr(VI) 的吸附能力。透射电子显微镜 (TEM) 观察和氮气吸附-脱附测量表明，形成了具有 5.2nm 平均孔径和 161.2m(2)/g 表面积的介孔 TiO(2)。MO 和 Cr(VI) 的吸附数据均很好地符合 Langmuir 或 Freundlich 吸附模型。MO 的吸附受溶液 pH 的影响较小，而 Cr(VI) 的吸附则强烈依赖于溶液 pH。通过将溶液 pH 从 3 增加到 12，MO 的吸附百分比从约 87%下降到 78%；然而，Cr(VI) 的吸附百分比从约 45%下降到 0%。介孔 TiO(2) 对 MO 和 Cr(VI) 的最大吸附容量分别确定为 454.5 和 33.9mg/g，这表明介孔 TiO(2) 是 MO 和 Cr(VI) 的优良吸附剂。

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介孔 TiO2 的水热法制备及其对甲基橙和 Cr(VI)的吸附

Adsorption of methyl orange and Cr(VI) on mesoporous TiO2 prepared by hydrothermal method.

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