A compendium of potential energy maps of zeolites and molecular sieves

D. Keffer , Vishwas Gupta , David Kim , Elizabeth Lenz , H. Ted Davis , Alon V. McCormick
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引用次数: 26

Abstract

We present potential maps of xenon in 20 different zeolites and molecular sieves. The potential maps reveal both the accessible pore volume and localized adsorption sites and so are important in understanding adsorption and diffusion processes in nanoporous materials. We examine zeolites and molecular sieves with one-dimensional channel-like nanopores (zeolite-Theta 1, AlPO4-5, zeolite-Omega, zeolite-L, ZSM-12, AlPO4-8, and VPI-5), with two-dimensional intersecting channel-like nanopores (ZSM-5 [silicalite], ZSM-11, ferrierite, mordenite, and zeolite-Beta), and with three-dimensionally connected cagelike nanopores (zeolite-A, zeolite-Rho, zeolite-Y, sodalite, chabazite, cloverite, cation-poor zeolite-A, and cation-rich zeolite-A). We report the fraction of pore volume accessible, the maximum energy well depth at the adsorption sites, and the activation energy to move between sites. We note several examples of surprising similarities and differences between various molecular sieves. In several instances, we show that these potential profiles are relevant for other small Lennard-Jones-like molecules. By comparison with published Monte Carlo and molecular dynamics simulations, we show that the density distributions of adsorbates at low density are well predicted by the potential maps.

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沸石和分子筛的势能图简编
我们提出了氙在20种不同的沸石和分子筛中的潜在图谱。势图揭示了可达孔体积和局部吸附位点,因此对理解纳米多孔材料的吸附和扩散过程具有重要意义。我们研究了具有一维通道状纳米孔(沸石- theta 1、AlPO4-5、沸石- omega、沸石-l、ZSM-12、AlPO4-8和VPI-5)的沸石和分子筛,具有二维相交的通道状纳米孔(ZSM-5[硅石]、ZSM-11、铁素体、丝光沸石和沸石- β),以及具有三维连接的笼状纳米孔(沸石- a、沸石- rho、沸石- y、钠沸石、茶巴沸石、cloverite、缺阳离子沸石- a和富阳离子沸石- a)。我们报告了可达孔隙体积的比例,吸附位点的最大能量井深度,以及在位点之间移动的活化能。我们注意到各种分子筛之间惊人的相似和差异的几个例子。在几个例子中,我们证明了这些潜在的特征与其他小的Lennard-Jones-like分子有关。通过与已发表的蒙特卡罗模拟和分子动力学模拟的比较,我们表明,势图可以很好地预测低密度下吸附物的密度分布。
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