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Meier, Timon; Li, Runxuan; Mavrikos, Stefanos; Blankenship, Brian; Vangelatos, Zacharias; Yildizdag, M. Erden; Grigoropoulos, Costas P. (, npj Computational Materials)Abstract Recent advancements in manufacturing, finite element analysis (FEA), and optimization techniques have expanded the design possibilities for metamaterials, including isotropic and auxetic structures, known for applications like energy absorption due to their unique deformation mechanism and consistent behavior under varying loads. However, achieving simultaneous control of multiple properties, such as optimal isotropic and auxetic characteristics, remains challenging. This paper introduces a systematic design approach that combines modeling, FEA, genetic algorithm, and optimization to create tailored mechanical behavior in metamaterials. Through strategically arranging 8 distinct neither isotropic nor auxetic unit cell states, the stiffness tensor in a 5 × 5 × 5 cubic symmetric lattice structure is controlled. Employing the NSGA-II genetic algorithm and automated modeling, we yield metamaterial lattice structures possessing both desired isotropic and auxetic properties. Multiphoton lithography fabrication and experimental characterization of the optimized metamaterial highlights a practical real-world use and confirms the close correlation between theoretical and experimental data.more » « less
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Sheikh, Haris Moazam; Meier, Timon; Blankenship, Brian; Vangelatos, Zacharias; Zhao, Naichen; Marcus, Philip S.; Grigoropoulos, Costas P. (, International Journal of Mechanical Sciences)
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Blankenship, Brian W.; Meier, Timon; Zhao, Naichen; Mavrikos, Stefanos; Arvin, Sophia; De La Torre, Natalia; Hsu, Brian; Seymour, Nathan; Grigoropoulos, Costas P. (, Nano Letters)
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Blankenship, Brian_W; Meier, Timon; Arvin, Sophia_Lafia; Li, Jingang; Seymour, Nathan; De_La_Torre, Natalia; Hsu, Brian; Zhao, Naichen; Mavrikos, Stefanos; Li, Runxuan; et al (, ACS Applied Engineering Materials)
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Blankenship, Brian_W; Li, Jingang; Jones, Zachary; Parashar, Madhur; Zhao, Naichen; Singh, Harpreet; Li, Runxuan; Arvin, Sophia; Sarkar, Adrisha; Yang, Rundi; et al (, Nano Letters)
