Architected flexible electronic devices with rationally designed 3D geometries have found
essential applications in biology, medicine, therapeutics, sensing/imaging, energy, robotics …

Flexible/stretchable electronics, which are characterized by their ultrathin design, lightweight
structure, and excellent mechanical robustness and conformability, have garnered …

Stretchable three-dimensional (3D) penetrating microelectrode arrays have potential utility
in various fields, including neuroscience, tissue engineering, and wearable bioelectronics …

Bioelectronics encompassing electronic components and circuits for accessing human
information play a vital role in real-time and continuous monitoring of biophysiological …

Buckling-guided assembly of three-dimensional (3D) mesostructures from pre-defined 2D
precursor patterns has arisen increasing attention, owing to the compelling advantages in …

Recent advancements in soft electronics and robotics have expanded the possibilities
beyond the capabilities of traditional rigid devices, indicating promise for a range of …

The geometric reconfigurations in three-dimensional morphable structures have a wide
range of applications in flexible electronic devices and smart systems with unusual …

Abstract Three-dimensional (3D) buckling assembly of flexible electronics from strategically
designed two-dimensional (2D) precursor structures has enabled important applications in a …

Osteoarthritis (OA) is a prevalent global health concern, posing a significant and increasing
public health challenge worldwide. Recently, nanotechnology-boosted biomaterials have …

Viscoelasticity is a generic characteristic of soft biotissues and polymeric materials,
endowing them with unique time-and rate-dependent properties. Here, by spatiotemporally …