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86 reviewsMechanical metamaterials are becoming an emerging frontier in scientific research
and engineering innovation due to its unique properties, arising from innovative
geometrical designs rather than constituent materials. Reconfigurable metamaterials can
change their shapes and structures dramatically under external forces or environmental
stimuli. It offers an enhanced flexibility in performance by coupling dynamically changing
structural configuration and tunable properties, which has found broad potential
applications in 3D meso-structures assembly and programmable machines. Despite
extensive studies on harnessing origami, the ancient paper folding art, for design of
mechanical metamaterials, the study on utilizing its close cousin, kirigami (“kiri” means
cut), for programmable reconfigurable mechanical metamaterials and machines remains
largely unexplored. In this dissertation, I explore harnessing the uniqueness of cuts in
kirigami for achieving extraordinary mechanical properties and multifunctionalities in
krigami-based metamaterials, as well as its potential applications in programmable
machines and soft robotics.
