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Issue 37, 2013
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High accuracy geometric analysis of crystalline porous materials

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Abstract

A number of algorithms to analyze crystalline porous materials and their porosities employ the Voronoi tessellation, whereby the space in the material is divided into irregular polyhedral cells that can be analyzed to determine the pore topology and structure. However, the Voronoi tessellation is only appropriate when atoms all have equal radii, and the natural generalization to structures with unequal radii leads to cells with curved boundaries, which are computationally expensive to compute. Therefore, high-throughput structure analysis codes utilize the radical Voronoi tessellation, which approximates the curved cells by polyhedra. In this study, we investigate the errors arising from this approximation reflected in the predicted values of two important porosity descriptors, the largest included and free sphere diameters. The maximum observed errors amount to ca. 0.6 Å for a test set comprised of zeolite and metal–organic framework materials. Following the work of Phillips et al. (Soft Matter, 2010, 6, 1693–1703), we describe a strategy to systematically decrease observed errors, and demonstrate that high accuracy (errors below 0.1 Å) can be obtained within the same algorithmic framework and at the expense of only an order of magnitude increase in computational cost.

Graphical abstract: High accuracy geometric analysis of crystalline porous materials

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Publication details

The article was received on 07 Jun 2013, accepted on 17 Jul 2013 and first published on 24 Jul 2013


Article type: Paper
DOI: 10.1039/C3CE41057A
Citation: CrystEngComm, 2013,15, 7531-7538
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    High accuracy geometric analysis of crystalline porous materials

    M. Pinheiro, R. L. Martin, C. H. Rycroft and M. Haranczyk, CrystEngComm, 2013, 15, 7531
    DOI: 10.1039/C3CE41057A

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