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Statistical designs accelerate the optimization of layered 2-D crystals

Date:
April 25, 2018
Source:
Singapore University of Technology and Design
Summary:
Researchers have demonstrated that statistical optimization techniques provide substantial efficiency increases when engineering layered van der Waals heterostructures. The research team used the Sb2Te3 growth problem to demonstrate the power of fractional factorial design in materials science to uncover the statistically significant parameters that influence the quality of Sb2Te3 crystals.
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It has been estimated that there are more than 10^100 possible materials that can be synthesised, grown, and optimised. Materials design can be a slow and laborious process and investigating the full parameter space is a formidable challenge. Machine learning and other advanced statistical techniques will almost certainly help accelerate materials discovery, design, and optimisation, but many materials scientists are unaware that great speed-ups can be gained from very basic statistical design methods, such as fractional factorial design of experiments, which is more commonly used by product engineers than materials scientists.

Layered chalcogenide materials, such as Sb2Te3, have attracted substantial attention in the last decade because of their topologically non-trivial bad structure, and use in thermoelectrics and interfacial phase change memory. High quality crystals of Sb2Te3 are required for high performance memory and energy converting devices. However, efficiently optimising the crystal quality is challenging because it is highly sensitive to a large number of synthesis parameters, such as temperature, pressure, surrounding materials, and deposition rate. It is often difficult to determine the parameters that significantly affect the crystal quality, i.e. "we are unable to see the wood from the trees," and therefore it is difficult to know which design parameter should be prioritised during optimisation.

Researchers from the Singapore University of Technology and Design (SUTD) used the Sb2Te3 growth problem to demonstrate the power of fractional factorial design in materials science. After uncovering the statistically significant parameters and interactions that influence the quality of the Sb2Te3 crystals, the research team was able to grow high quality layered Sb2Te3 crystals over a 4" silicon wafer using sputtering, which is an industrially scalable deposition technique.

SUTD principal investigator, Assistant Professor Robert Simpson said: "Our study demonstrates that these cross-disciplinary statistical optimisation techniques can provide substantial efficiency increases, and it is therefore bemusing that these approaches are not widely used in materials science. Perhaps the reluctance to adopt fractional factorial design is due to the fact that it is purely statistical and does not directly provide information about underlying physics. However, these days artificial intelligence is fuelling a revolution in "black box" optimisation techniques in materials science and teaming them with physical models will undoubtedly provide radical changes to the way that we do materials science."


Story Source:

Materials provided by Singapore University of Technology and Design. Note: Content may be edited for style and length.


Journal Reference:

  1. Jitendra K. Behera, Xilin Zhou, Alok Ranjan, Robert E. Simpson. Sb2Te3 and Its Superlattices: Optimization by Statistical Design. ACS Applied Materials & Interfaces, 2018; DOI: 10.1021/acsami.8b02100

Cite This Page:

Singapore University of Technology and Design. "Statistical designs accelerate the optimization of layered 2-D crystals." ScienceDaily. ScienceDaily, 25 April 2018. <www.sciencedaily.com/releases/2018/04/180425093801.htm>.
Singapore University of Technology and Design. (2018, April 25). Statistical designs accelerate the optimization of layered 2-D crystals. ScienceDaily. Retrieved December 23, 2024 from www.sciencedaily.com/releases/2018/04/180425093801.htm
Singapore University of Technology and Design. "Statistical designs accelerate the optimization of layered 2-D crystals." ScienceDaily. www.sciencedaily.com/releases/2018/04/180425093801.htm (accessed December 23, 2024).

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