Mechanically-guided 3D assembly for architected flexible electronics
Architected flexible electronic devices with rationally designed 3D geometries have found
essential applications in biology, medicine, therapeutics, sensing/imaging, energy, robotics …
essential applications in biology, medicine, therapeutics, sensing/imaging, energy, robotics …
Deep learning aided inverse design of the buckling-guided assembly for 3D frame structures
Buckling-guided assembly of three-dimensional (3D) mesostructures from pre-defined 2D
precursor patterns has arisen increasing attention, owing to the compelling advantages in …
precursor patterns has arisen increasing attention, owing to the compelling advantages in …
Bioelectric interface technologies in cells and organoids
The past two decades have witnessed breakthroughs in cellular‐scale bioelectronics and
their widespread applications in life sciences, creating many powerful platforms for studying …
their widespread applications in life sciences, creating many powerful platforms for studying …
A wrinkling-assisted strategy for controlled interface delamination in mechanically-guided 3D assembly
Abstract Mechanically-guided three-dimensional (3D) assembly is a recently established
method for the fabrication of 3D structures and devices at micro/nanoscale. Such assembly …
method for the fabrication of 3D structures and devices at micro/nanoscale. Such assembly …
Modeling and design of three-dimensional voxel printed lattice metamaterials
Abstract 3D voxel printing has emerged as a promising technology for fabricating
sophisticated structures with voxel-level material distributions, allowing for a wide design …
sophisticated structures with voxel-level material distributions, allowing for a wide design …
Morphable three-dimensional electronic mesofliers capable of on-demand unfolding
Abstract Development of miniaturized three-dimensional (3D) fliers with integrated functional
components has important implications to a diverse range of engineering areas. Among the …
components has important implications to a diverse range of engineering areas. Among the …
Mechanical design and analytic solution for unfolding deformation of locomotive ferromagnetic robots
Z Yan, K Wang, B Wang - International Journal of Mechanical Sciences, 2021 - Elsevier
Magnetically actuated robots are attracting much interest due to the advantages of fast
response, remote manipulation and enabling operations in enclosed spaces. Recent …
response, remote manipulation and enabling operations in enclosed spaces. Recent …
Buckling of circular rings and its applications in thin-film electronics
Z Yan, K Wang, B Wang - International Journal of Mechanical Sciences, 2022 - Elsevier
Buckling-guided transformations of thin-film materials into three-dimensional (3D)
architectures are extensively utilized in electronic microsystems. However, the mechanically …
architectures are extensively utilized in electronic microsystems. However, the mechanically …
Design of protective and high sensitivity encapsulation layers in wearable devices
XF Wang, JL Huang, YCY Liu, JY Tan, SD Chen… - Science China …, 2023 - Springer
Elastomeric encapsulation layers are widely used in soft, wearable devices to physically
isolate rigid electronic components from external environmental stimuli (eg, stress) and …
isolate rigid electronic components from external environmental stimuli (eg, stress) and …
Probability-based analyses of the snap-through in cage-shaped mesostructures under out-of-plane compressions
Abstract Three-dimensional (3D) mesostructures with distinct compressive deformation
behaviors and tunable mechanical responses have gained increasing interest in recent …
behaviors and tunable mechanical responses have gained increasing interest in recent …