El Shafei Gamal M. S., Philip Christine A., Moussa Nabawaya A.
Chemistry Department, Faculty of Science, Ain Shams University, Abbassia, Cairo, Egypt
J Colloid Interface Sci. 2001 Feb 1;234(1):142-148. doi: 10.1006/jcis.2000.7257.
The adsorption of Mo from dilute aqueous solutions (10(-3) to 3x10(-2) M) is effected on three samples of titania, two are anatase and the third is P25, which is composed of rutile and anatase. The adsorption isotherms at 298, 318, and 338 K are analyzed using a Langmuir linear equation. The isotherms on P25 showed a distinct inflection point that is reproduced by two linear portions, indicating different adsorption regimes. This adsorption behavior is explained as follows: with low amount adsorbed the adsorption is initiated by protonation of the basic hydroxyls on which the negatively charged MoO(4)(2-')s are adsorbed, and this is accompanied by an increase in the pH of the impregnating solution. At higher adsorption the coordinatively unsaturated Ti(4+) sites participate in the process, leading to a decline in the initial increase in pH. In the case of the two anatase samples the low surface area resulted in poor distribution of adsorption sites; consequently, the distinction between the two modes of adsorption was not entirely clear. The higher adsorption site density in the case of anatase is accompanied by a lower surface coverage, θ, than that for P25. The heat of adsorption, Q, on the three titania samples showed a linear increase with θ, which is represented by the regression equation: -Q=95.77θ-4.25 (R(2)=0.993). Copyright 2001 Academic Press.
从稀水溶液(10⁻³至3×10⁻² M)中吸附钼是在三种二氧化钛样品上进行的,其中两种是锐钛矿型,第三种是由金红石和锐钛矿组成的P25型。使用朗缪尔线性方程分析了在298 K、318 K和338 K下的吸附等温线。P25型上的等温线显示出一个明显的拐点,该拐点由两个线性部分重现,表明存在不同的吸附机制。这种吸附行为的解释如下:在低吸附量时,吸附是由碱性羟基的质子化引发的,带负电荷的MoO₄²⁻吸附在这些碱性羟基上,同时浸渍溶液的pH值会升高。在较高吸附量时,配位不饱和的Ti⁴⁺位点参与该过程,导致pH值最初升高的趋势下降。对于两种锐钛矿型样品,低比表面积导致吸附位点分布不佳;因此,两种吸附模式之间的区别并不完全清晰。锐钛矿型情况下较高的吸附位点密度伴随着比P25型更低的表面覆盖率θ。三种二氧化钛样品上的吸附热Q随θ呈线性增加,其回归方程为:-Q = 95.77θ - 4.25(R² = 0.993)。版权所有2001年学术出版社。