Thermal shape morphing of membrane-type electronics based on

Gaussian-preserved, non-volatile shape morphing in three-dimensional microstructures for dual-functional electronic devices

Design and operation of an adaptable, wireless 3D circuit system. a)

Actuation performance of the photonic bilayers a Deformation of a

Morphing matter: from mechanical principles to robotic applications

Morphing matter: from mechanical principles to robotic applications

Jongwon YOON, Senior Researcher, PhD, Korea Institute of Materials Science, Seongnam-si, Department of Energy and Electronic materials

Shape-morphing materials and structures for energy-efficient building envelopes - ScienceDirect

Uniaxial stretch-enhanced WTP. a) A 3D schematic showing the specimen

a) Snapshots of aluminum ribbon pattern uniaxially expanded from 0 to

Heung Cho Ko's research works Gwangju Institute of Science and Technology, Gwangju and other places

PDF) Thermal shape morphing of membrane-type electronics based on plastic-elastomer frameworks for 3D electronics with various Gaussian curvatures

The shape – morphing performance of magnetoactive soft materials - ScienceDirect

Synchrotron-radiation XPS analysis of ultra-thin silane films: Specifying the organic silicon - ScienceDirect

PDF) Thermal shape morphing of membrane-type electronics based on plastic-elastomer frameworks for 3D electronics with various Gaussian curvatures