Optical Identification of Materials Transformations in Oxide Thin Films

Duncan R.  Sutherland; Aine Boyer  Connolly; Maximilian  Amsler; Ming-Chiang  Chang; Katie Rose  Gann; Vidit  Gupta; Sebastian  Ament; Dan  Guevarra; John M.  Gregoire; Carla P.  Gomes; R.  Bruce van Dover; Michael O.  Thompson

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Optical Identification of Materials Transformations in Oxide Thin Films

机译：氧化物薄膜材料变换的光学识别

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Recent advances in high-throughput experimentation for combinatorial studies have accelerated the discovery and analysis of materials across a wide range of compositions and synthesis conditions. However, many of the more powerful characterization methods are limited by speed, cost, availability, and/or resolution. To make efficient use of these methods, there is value in developing approaches for identifying critical compositions and conditions to be used as a priori knowledge for follow-up characterization with high-precision techniques, such as micrometer-scale synchrotron-based X-ray diffraction (XRD). Here, we demonstrate the use of optical microscopy and reflectance spectroscopy to identify likely phase-change boundaries in thin film libraries. These methods are used to delineate possible metastable phase boundaries following lateral-gradient laser spike annealing (lg-LSA) of oxide materials. The set of boundaries are then compared with definitive determinations of structural transformations obtained using high-resolution XRD. We demonstrate that the optical methods detect more than 95% of the structural transformations in a composition-gradient La-Mn-O library and a Ga_(2)O_(3) sample, both subject to an extensive set of lg-LSA anneals. Our results provide quantitative support for the value of optically detected transformations as a priori data to guide subsequent structural characterization, ultimately accelerating and enhancing the efficient implementation of micrometer-resolution XRD experiments.

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来源
《ACS combinatorial science》 |2020年第12期|共8页
作者
Duncan R. Sutherland; Aine Boyer Connolly; Maximilian Amsler; Ming-Chiang Chang; Katie Rose Gann; Vidit Gupta; Sebastian Ament; Dan Guevarra; John M. Gregoire; Carla P. Gomes; R. Bruce van Dover; Michael O. Thompson;
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作者单位

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Computer Science Cornell University;

Joint Center for Artificial Photosynthesis California Institute of Technology;

Joint Center for Artificial Photosynthesis California Institute of Technology;

Department of Computer Science Cornell University;

Department of Materials Science and Engineering Cornell University;

Department of Materials Science and Engineering Cornell University;

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原文格式 PDF
正文语种 eng
中图分类化学;
关键词
laser spike annealing; reflectance spectroscopy; high-throughput experimentation; materials transformations; metastable phases;

机译：激光尖峰退火;反射光谱;高通量实验;材料转换;亚稳态阶段;

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Optical Identification of Materials Transformations in Oxide Thin Films

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