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Our expertise lies in solid mechanics, structural optimization, and fabrication of architected materials. Some of these materials, often named mechanical metamaterials, exhibit extreme mechanical properties, at times beyond those of existing solids. Through a combined approach of experiments, theory, and simulations, we study their mechanical response across the spectrum of length scale, their physical and multifunctional properties as well as the impact of manufacturing induced defects. We also study the role of cellular architecture in plant tissues, in particular in response to water stimuli. The outcome of these investigations serves as a springboard that we often exploit to develop advanced materials and technology with unprecedented properties that are of practical use, particularly for aerospace and medicine. Our current interests are:
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Xin Zhou,Pierre Kateb,Jiaxin Fan, Jinsil Kim, Gregory A. Lodygensky,Benedicte Amilhon,Damiano Pasini,Fabio Cicoira
JOURNAL OF MATERIALS CHEMISTRY Cno. 16 (2024)
Neurocomputingpp.127553, (2024)
FLEXIBLE AND PRINTED ELECTRONICSno. 2 (2023): 024003-024003
APPLIED PHYSICS LETTERSno. 22 (2023)
ADVANCED ENGINEERING MATERIALS (2023)
ADVANCED FUNCTIONAL MATERIALSno. 16 (2023)
Advanced materials (Deerfield Beach, Fla.) (2023)
Advanced Functional Materialsno. 16 (2023)
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PHYSICAL REVIEW APPLIEDno. 6 (2023)
ADVANCED FUNCTIONAL MATERIALSno. 49 (2023)
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