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PUBLICATIONS

Recommendation system to predict missing adsorption properties of nanoporous materials

Published

Author(s)

Arni Sturluson, Ali Raza, Grant McConachie, Daniel Siderius, Xaioli Fern, Cory Simon

Abstract

Nanoporous materials (NPMs) selectively adsorb and concentrate gases into their pores and thus could be used to store, capture, and sense many different gases. Modularly synthesized classes of NPMs, such as covalent organic frameworks (COFs), offer a large number of candidate structures for each adsorption task. A complete NPM-property table, containing measurements of relevant adsorption properties in candidate NPMs, would enable the matching of NPMs with adsorption tasks. However, in practice, the NPM-property matrix is only partially observed (incomplete); many different properties of many different NPMs have not been measured. The idea in this work is to leverage the observed (NPM, property) values to impute the missing ones. Similarly, commercial recommendation systems impute missing entries in an incomplete product--customer ratings matrix to recommend products to customers. We demonstrate a COF recommendation system to match COFs with adsorption tasks by training a low-rank model of an incomplete COF--adsorption-property matrix constructed from simulated uptakes of CH$_4$, H$_2$O, H$_2$S, Xe, Kr, CO$_2$, N$_2$, O$_2$, and H$_2$ at various conditions. A low-rank model of the COF--adsorption-property matrix, fit to the observed (COF, adsorption property) values, provides (i) predictions of the missing (COF, adsorption property) values and (ii) a map of COFs, wherein COFs, represented as points, with similar (dissimilar) adsorption properties congregate (separate). The COF recommendation system is able to rank COFs reasonably well for most of the adsorption properties, but imputation performance diminishes precipitously when the fraction of missing entries exceeds 60 %. The concepts in our COF recommendation system can be applied broadly to impute missing data pertaining to many different materials and properties.
Citation
Chemistry of Materials
Volume
33
Pub Type
Journals

Download Paper

https://doi.org/10.1021/acs.chemmater.1c01201
Local Download

Keywords

adsorption, isotherm, machine learning, matrix model
Theoretical chemistry and modeling, Molecular characterization, Modeling and computational material science, Chemical thermodynamics and chemical properties and Chemical engineering and processing

Citation

Sturluson, A. , Raza, A. , McConachie, G. , Siderius, D. , Fern, X. and Simon, C. (2021), Recommendation system to predict missing adsorption properties of nanoporous materials, Chemistry of Materials, [online], https://doi.org/10.1021/acs.chemmater.1c01201, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=932241 (Accessed April 30, 2024)

Created September 7, 2021, Updated November 29, 2022