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Big-Data Science in Porous Materials: Materials Genomics and Machine Learning.


ABSTRACT: By combining metal nodes with organic linkers we can potentially synthesize millions of possible metal-organic frameworks (MOFs). The fact that we have so many materials opens many exciting avenues but also create new challenges. We simply have too many materials to be processed using conventional, brute force, methods. In this review, we show that having so many materials allows us to use big-data methods as a powerful technique to study these materials and to discover complex correlations. The first part of the review gives an introduction to the principles of big-data science. We show how to select appropriate training sets, survey approaches that are used to represent these materials in feature space, and review different learning architectures, as well as evaluation and interpretation strategies. In the second part, we review how the different approaches of machine learning have been applied to porous materials. In particular, we discuss applications in the field of gas storage and separation, the stability of these materials, their electronic properties, and their synthesis. Given the increasing interest of the scientific community in machine learning, we expect this list to rapidly expand in the coming years.

SUBMITTER: Jablonka KM 

PROVIDER: S-EPMC7453404 | biostudies-literature | 2020 Aug

REPOSITORIES: biostudies-literature

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Big-Data Science in Porous Materials: Materials Genomics and Machine Learning.

Jablonka Kevin Maik KM   Ongari Daniele D   Moosavi Seyed Mohamad SM   Smit Berend B  

Chemical reviews 20200610 16


By combining metal nodes with organic linkers we can potentially synthesize millions of possible metal-organic frameworks (MOFs). The fact that we have so many materials opens many exciting avenues but also create new challenges. We simply have too many materials to be processed using conventional, brute force, methods. In this review, we show that having so many materials allows us to use big-data methods as a powerful technique to study these materials and to discover complex correlations. The  ...[more]

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