3D Conformal Curvy Electronics: Design, Fabrication, and Application

Abstract

Owing to their excellent conformability and functional advantages derived from spatially induced structures, 3D conformal curvy electronics have garnered attention for their emerging applications in biomedical healthcare, soft machines, curvy imagers, etc. In this perspective, the historical evolution of 3D conformal curvy electronics is summarized, with representative examples highlighted and developmental trends outlined. The design strategies of 3D conformal curvy electronics are discussed across materials, structures, interfaces, and conformability assessment. Subsequently, diverse fabrication technologies are reviewed, including direct fabrication, conformal transfer printing, and conformal shape reconfiguration. Afterward, the typical applications of 3D conformal curvy electronics are presented, classified by integration with biological tissues, machines, and function-engineered curvy surfaces. Finally, the existing challenges and potential research directions are provided for further exploration.