Issue 43, 2020

Toward crystalline porosity estimators for porous molecules

Abstract

Crystalline porous solids based on molecules with intrinsic porosities are a diverse group of materials that have been investigated in the context of adsorption-based separations and other applications. Novel computational approaches are being developed to identify structures with desired properties by sieving through large sets of candidates. Recently, both in silico synthesis of new porous molecular species and identification of alike in large molecular databases have become possible. However, assessing the porosity of the corresponding crystalline materials has been based on performing crystal structure prediction (CSP), followed by the characterization of the porosity of the resulting phases. CSP has a significant computational cost, which seriously limits the possibility of high-throughput computational screening applications. Herein, we present an avenue to circumvent the need for CSP for every investigated molecular structure by introduction of molecular-based crystalline material porosity estimators. In particular, our analysis of previously-reported crystalline porous materials involving porous molecules uncovered the correlations between the molecular porosity descriptors and the porosity descriptors of the corresponding crystalline phases. We exploit these correlations by building random forest classifiers and regressors to estimate the material porosity based on the structure of its porous molecular building block.

Graphical abstract: Toward crystalline porosity estimators for porous molecules

Supplementary files

Article information

Article type
Paper
Submitted
05 Nov. 2019
Accepted
28 Febr. 2020
First published
06 Marts 2020

CrystEngComm, 2020,22, 7242-7251

Toward crystalline porosity estimators for porous molecules

I. Gómez García and M. Haranczyk, CrystEngComm, 2020, 22, 7242 DOI: 10.1039/C9CE01753D

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