Rapid Identification Of Synthetic Routes To Functional Metastable Phases Using X-Ray Probed Laser Anneal Mapping (Xplam) Time- Temperature Quench Maps
CHEMISTRY OF MATERIALS(2021)
摘要
Many material systems have known or predicted functional phases that are metastable at standard temperature and pressure. While substantial advances have been made in the high-throughput and combinatorial synthesis of materials with a range of stoichiometries, investigation of thermal processing remains largely the domain of iterative uniform anneals or static gradients. Here we develop X-ray probed laser anneal mapping (XPLAM), a high throughput technique coupling spatially resolved X-ray diffraction with microsecond to millisecond laser gradient anneals to produce temperature-dwell-transformation (TDT) diagrams of the phase as a function of quench time and temperature. In addition to showing regimes where specific metastable phases form preferentially, TDT diagrams provide insight into the submillisecond kinetics of solid-solid phase transitions. This is a unique tool for mapping reaction XPLAM, we study Bi2O3 , which has a rich set of polytypes, including the delta-phase with an exceptionally high oxygen ion conductivity. We demonstrate the first annealing-driven synthesis of room temperature delta-Bi2O3. We expect XPLAM to prove a powerful technique for rapid identification of synthetic routes to metastable phases and to generate the exhaustive data sets required for machine learning-guided exploration of materials processing.
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关键词
functional metastable phases,time–temperature quench maps,x-ray
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