Global property prediction: A benchmark study on open source, perovskite-like datasets

Abstract

Screening combinatorial space for novel materials - such as perovskite-like ones for photovoltaics - has resulted in a high amount of simulated high-troughput data and analysis thereof. This study proposes a comprehensive comparison of structural-fingerprint based machine-learning models on seven open-source databases of perovskite-like materials to predict bandgaps and energies. It shows that none of the given methods are able to capture arbitrary databases evenly, while underlining that commonly used metrics are highly database dependent in typical workflows. In addition the applicability of variance selection and autoencoders to significantly reduce fingerprint size indicates that models built with common fingerprints only rely on a submanifold of the available fingerprint space.