AI-Based Metamaterial Design

Tezsezen, Ece; Yigci, Defne; Ahmadpour, Abdollah; Tasoglu, Savas

doi:10.1021/acsami.4c04486

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.4c04486

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AI-Based Metamaterial Design

Ece Tezsezen,

Defne Yigci,

Abdollah Ahmadpour

et al.

Abstract: The use of metamaterials in various devices has revolutionized applications in optics, healthcare, acoustics, and power systems. Advancements in these fields demand novel or superior metamaterials that can demonstrate targeted control of electromagnetic, mechanical, and thermal properties of matter. Traditional design systems and methods often require manual manipulations which is time-consuming and resource intensive. The integration of artificial intelligence (AI) in optimizing metamaterial design can be emp… Show more

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Cited by 4 publications

References 293 publications

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Metamaterials Based on a Gaseous Mixture: Analytical Modeling of Electrostriction Effect and Corresponding Brillouin Frequency Shift

Khakpour,

Sani,

Rahighi

et al. 2024

Arab J Sci Eng

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Metamaterials Based on a Gaseous Mixture: Analytical Modeling of Electrostriction Effect and Corresponding Brillouin Frequency Shift

Khakpour,

Sani,

Rahighi

et al. 2024

Arab J Sci Eng

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Smart Hydrogel-Based Mechanical Metamaterials: A Review

Pruksawan,

Chua,

Chong

et al. 2024

ACS Appl. Polym. Mater.

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Mechanical metamaterials have garnered significant attention due to their extraordinary mechanical properties derived from structural design. This displays their huge potential for emerging material applications. Although hydrogels present challenges in the fabrication of mechanical metamaterials due to their intrinsic high water content, their inclusion is desirable because of their unique responsive properties. This distinctive responsiveness and their extraordinary mechanical characteristics opens up exciting possibilities for smart applications in fields such as biomedical engineering, soft robotics, and sensors. In the past five years, advancements in hydrogel fabrication techniques such as additive manufacturing and multimaterial approaches have enabled the design of more complex and customizable hydrogel ranging from macro-to nanostructures. This review offers recent insights into hydrogel materials as mechanical metamaterials, highlighting their development in diverse applications by harnessing hydrogel characteristics. It discusses various mechanical metamaterial characteristics, including negative hydration expansion, auxetic behavior, geometric transformation, and programmable mechanical properties, while also addressing current challenges and charting future prospects in the field.

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Proposal for an Artificial Neural Network Tool for the Process of Generating Metasurface Unit Cell Geometries

Góra,

Łopato

2024

Applied Sciences

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This paper focuses on presenting an intelligent model that can generate the desired geometry of a unit cell metasurface for a given resonant frequency at which we expect the metasurface structure to work. The model consists of the use of a multilayer perceptron and filters, which represent the output geometry of the unit cell as a 6 × 6 matrix stored in a binary state. The value 0 in the matrix denotes the dielectric substrate on which the geometry of the unit cell is built, and the value 1 denotes the blocks as the conducting parts of the unit cell metasurface. The proposed model was tested using simulation data from the Comsol Multiphysics environment. The test confirmed the effectiveness of the model, and it is possible to develop and apply it to larger and other datasets.

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AI-Based Metamaterial Design

Cited by 4 publications

References 293 publications

Metamaterials Based on a Gaseous Mixture: Analytical Modeling of Electrostriction Effect and Corresponding Brillouin Frequency Shift

Metamaterials Based on a Gaseous Mixture: Analytical Modeling of Electrostriction Effect and Corresponding Brillouin Frequency Shift

Smart Hydrogel-Based Mechanical Metamaterials: A Review

Proposal for an Artificial Neural Network Tool for the Process of Generating Metasurface Unit Cell Geometries

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