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使用精细离散晶格流体的新密度泛函理论预测复杂微孔和介孔材料中的气体吸附。

Predicting gas adsorption in complex microporous and mesoporous materials using a new density functional theory of finely discretized lattice fluids.

作者信息

Siderius Daniel W, Gelb Lev D

机构信息

Department of Chemistry and Center for Materials Innovation, Washington University in St Louis, St. Louis, Missouri 63130, USA.

出版信息

Langmuir. 2009 Feb 3;25(3):1296-9. doi: 10.1021/la803666t.

Abstract

We introduce a nonlocal on-lattice version of density functional theory (DFT) that allows for efficient modeling of fluids in complex inhomogeneous materials. In its previous implementations, classical DFT has required fine discretization of the fluid density. As a result, in studies of gas adsorption it has been used only in idealized pore models with high symmetry. Our new lattice DFT dramatically reduces the computational demand required to model simple fluids and hence can be efficiently applied to complex materials with multiple directions of asymmetry. We apply our new lattice DFT to study nitrogen adsorption in a slit pore with open ends and directly obtain the correct desorption hysteresis. We also apply our DFT to predict hydrogen adsorption accurately in an atomistic model of a metal-organic framework.

摘要

我们引入了一种非局部晶格版本的密度泛函理论(DFT),它能够对复杂非均匀材料中的流体进行高效建模。在其先前的实现中,经典DFT要求对流体密度进行精细离散化。因此,在气体吸附研究中,它仅用于具有高对称性的理想化孔隙模型。我们新的晶格DFT显著降低了对简单流体建模所需的计算量,因此可以有效地应用于具有多个不对称方向的复杂材料。我们应用新的晶格DFT来研究开口端狭缝孔中的氮吸附,并直接获得正确的解吸滞后现象。我们还应用DFT在金属有机框架的原子模型中准确预测氢吸附。

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