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Efficient Closed-loop Maximization of Carbon Nanotube Growth Rate using Bayesian Optimization

Jorge Chang, Pavel Nikolaev, Jennifer Carpena‐Núñez, Rahul Rao, Kevin Decker, Ahmad E. Islam, Jiseob Kim, Mark A. Pitt, Jay I. Myung, Benji Maruyama

2020Scientific Reports88 citationsDOIOpen Access PDF

Abstract

A major technological challenge in materials research is the large and complex parameter space, which hinders experimental throughput and ultimately slows down development and implementation. In single-walled carbon nanotube (CNT) synthesis, for instance, the poor yield obtained from conventional catalysts is a result of limited understanding of input-to-output correlations. Autonomous closed-loop experimentation combined with advances in machine learning (ML) is uniquely suited for high-throughput research. Among the ML algorithms available, Bayesian optimization (BO) is especially apt for exploration and optimization within such high-dimensional and complex parameter space. BO is an adaptive sequential design algorithm for finding the global optimum of a black-box objective function with the fewest possible measurements. Here, we demonstrate a promising application of BO in CNT synthesis as an efficient and robust algorithm which can (1) improve the growth rate of CNT in the BO-planner experiments over the seed experiments up to a factor 8; (2) rapidly improve its predictive power (or learning); (3) Consistently achieve good performance regardless of the number or origin of seed experiments; (4) exploit a high-dimensional, complex parameter space, and (5) achieve the former 4 tasks in just over 100 hundred experiments (~8 experimental hours) - a factor of 5× faster than our previously reported results.

Topics & Concepts

Bayesian optimizationComputer scienceThroughputMaximizationParameter spaceCarbon nanotubeExploitMathematical optimizationBayesian probabilityMachine learningAlgorithmArtificial intelligenceNanotechnologyMaterials scienceMathematicsStatisticsTelecommunicationsComputer securityWirelessMachine Learning in Materials ScienceCarbon Nanotubes in CompositesAdvanced Electron Microscopy Techniques and Applications
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