Discovery of a Low Thermal Conductivity Oxide Guided by Probe Structure Prediction and Machine Learning.

Christopher M Collins,Matthew J Rosseinsky,Charlene Delacotte,Michael W Gaultois,George R Darling,Jonathan Alaria,Matthew S Dyer,Richard Feetham,Michael Moran,Marco Zanella,Olivier Pérez,Claire A Murray,Troy D Manning,Denis Pelloquin,John B Claridge,Gyorgyi Glodan,Michael J Pitcher,Quinn Gibson,Luke M Daniels

doi:10.1002/anie.202102073

Abstract

We report the aperiodic titanate Ba10Y6Ti4O27 with a room‐temperature thermal conductivity that equals the lowest reported for an oxide. The structure is characterised by discontinuous occupancy modulation of each of the sites and can be considered as a quasicrystal. The resulting localisation of lattice vibrations suppresses phonon transport of heat. This new lead material for low‐thermal‐conductivity oxides is metastable and located within a quaternary phase field that has been previously explored. Its isolation thus requires a precisely defined synthetic protocol. The necessary narrowing of the search space for experimental investigation was achieved by evaluation of titanate crystal chemistry, prediction of unexplored structural motifs that would favour synthetically accessible new compositions, and assessment of their properties with machine‐learning models.

Highlights

To cite this version: Christopher Collins, Luke Daniels, Quinn Gibson, Michael Gaultois, Michael Moran, et al
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