Kirigami/origami: unfolding the new regime of advanced 3D microfabrication/nanofabrication with “folding”
Advanced kirigami/origami provides an automated technique for modulating the mechanical,
electrical, magnetic and optical properties of existing materials, with remarkable flexibility …
electrical, magnetic and optical properties of existing materials, with remarkable flexibility …
Shaping and structuring 2D materials via kirigami and origami
Abstract Two-dimensional (2D) materials such as graphene and molybdenum disulfide et al.
offer significant new prospects for electronics, optics, and biosensing applications due to …
offer significant new prospects for electronics, optics, and biosensing applications due to …
Assembly and Self‐Assembly of Nanomembrane Materials—From 2D to 3D
G Huang, Y Mei - Small, 2018 - Wiley Online Library
Nanoscience and nanotechnology offer great opportunities and challenges in both
fundamental research and practical applications, which require precise control of building …
fundamental research and practical applications, which require precise control of building …
Rapid effective reduction by microwave-irradiated thermal reaction for large-scale production of high-quality reduced graphene oxide
In this study, we suggest a simple and effective one-pot hybrid reduction process for the
mass production of high-quality reduced graphene oxide (rGO) by simultaneously doing …
mass production of high-quality reduced graphene oxide (rGO) by simultaneously doing …
Rolled‐up nanotechnology: materials issue and geometry capability
Rolled‐up nanotechnology is an appealing technique that tunes planar films into complex
3D fine structures. The rolling‐up mechanism and methodology of a huge variety of …
3D fine structures. The rolling‐up mechanism and methodology of a huge variety of …
Single-step fabrication of surface morphology tuned iron oxide anchored highly porous carbon nanotube hybrid foam for a highly stable supercapacitor electrode
The pseudocapacitive metal oxide anchored nanocarbon-based three-dimensional (3D)
materials are considered attractive electrode materials for high-performance supercapacitor …
materials are considered attractive electrode materials for high-performance supercapacitor …
In Situ Magnetic Control of Macroscale Nanoligand Density Regulates the Adhesion and Differentiation of Stem Cells
Developing materials with remote controllability of macroscale ligand presentation can
mimic extracellular matrix (ECM) remodeling to regulate cellular adhesion in vivo. Herein …
mimic extracellular matrix (ECM) remodeling to regulate cellular adhesion in vivo. Herein …
Three dimensional cross-linked and flexible graphene composite paper with ultrafast electrothermal response at ultra-low voltage
H Chang, Y Jia, L Xiao, H Chen, K Zhao, Y Chen, Y Ma - Carbon, 2019 - Elsevier
Electro thermal papers have been widely applied in people's daily life. Compared to
traditional metal alloy resistance heaters, three dimensional graphene/carbonized-PAN …
traditional metal alloy resistance heaters, three dimensional graphene/carbonized-PAN …
Copper-assisted thermal conversion of microporous covalent melamine-boroxine frameworks to hollow B, N-codoped carbon capsules as bifunctional metal-free …
Z Zhou, X Zhang, L Xing, J Liu, A Kong, Y Shan - Electrochimica Acta, 2019 - Elsevier
Low-cost melamine and 4-formylphenylboronic acid were assembled into new covalent
melamine-boroxine frameworks (COFs) with rich content of nitrogen and boron by a simple …
melamine-boroxine frameworks (COFs) with rich content of nitrogen and boron by a simple …
[HTML][HTML] Bending results of graphene origami reinforced doubly curved shell
N Yang, Y Zou, M Arefi - Defence Technology, 2024 - Elsevier
The present work investigates higher order stress, strain and deformation analyses of a
shear deformable doubly curved shell manufactures by a Copper (Cu) core reinforced with …
shear deformable doubly curved shell manufactures by a Copper (Cu) core reinforced with …