Jiaqi Guo scite author profile

Automated materials design with machine learning is increasingly common in recent years. Theoretically, it is characterized as black-box optimization in the space of candidate materials. Since the difficulty of this problem grows exponentially in the number of variables, designing complex materials is often beyond the ability of classical algorithms. We show how quantum annealing can be incorporated into automated materials discovery and conduct a proof-of-principle study on designing complex thermofunctional metamaterials. Our algorithm consists of three parts: regression for a target property by factorization machine, selection of candidate metamaterial based on the regression results, and simulation of the metamaterial property. To accelerate the selection part, we rely on the D-Wave 2000Q quantum annealer. Our method is used to design complex structures of wavelength selective radiators showing much better concordance with the thermal atmospheric transparency window in comparison to existing human-designed alternatives.

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Biomimetic reconstruction of butterfly wing scale nanostructures for radiative cooling and structural coloration

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et al. 2022

Nanoscale Horiz.

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Analyzing sustainability of Chinese coal cities using a decision tree modeling approach

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Ultimate impedance of coherent heat conduction in van der Waals graphene-MoS2 heterostructures

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et al. 2021

Materials Today Physics

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Photonic design for color compatible radiative cooling accelerated by materials informatics

Guo

Lee

et al. 2022

International Journal of Heat and Mass Transfer

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Jiaqi Guo

Designing metamaterials with quantum annealing and factorization machines

Biomimetic reconstruction of butterfly wing scale nanostructures for radiative cooling and structural coloration

Analyzing sustainability of Chinese coal cities using a decision tree modeling approach

Ultimate impedance of coherent heat conduction in van der Waals graphene-MoS2 heterostructures

Photonic design for color compatible radiative cooling accelerated by materials informatics

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