Electrohydrodynamic jet 3D printing in biomedical applications
Y Wu - Acta Biomaterialia, 2021 - Elsevier
Abstract Electrohydrodynamic Jet 3D Printing (e-jetting) is a promising technique developed
from electrospinning, which enables precise fiber deposition in a layer-by-layer fashion with …
from electrospinning, which enables precise fiber deposition in a layer-by-layer fashion with …
Biodegradable polymer scaffolds
S Hsu, KC Hung, CW Chen - Journal of Materials Chemistry B, 2016 - pubs.rsc.org
Tissue engineering aims to repair the damaged tissue by transplantation of cells or
introducing bioactive factors in a biocompatible scaffold. In recent years, biodegradable …
introducing bioactive factors in a biocompatible scaffold. In recent years, biodegradable …
Stereolithographic 4D bioprinting of multiresponsive architectures for neural engineering
Abstract 4D printing represents one of the most advanced fabrication techniques for
prospective applications in tissue engineering, biomedical devices, and soft robotics, among …
prospective applications in tissue engineering, biomedical devices, and soft robotics, among …
Photolithographic-stereolithographic-tandem fabrication of 4D smart scaffolds for improved stem cell cardiomyogenic differentiation
Abstract 4D printing is a highly innovative additive manufacturing process for fabricating
smart structures with the ability to transform over time. Significantly different from regular 4D …
smart structures with the ability to transform over time. Significantly different from regular 4D …
Micropatterned conductive hydrogels as multifunctional muscle-mimicking biomaterials: Graphene-incorporated hydrogels directly patterned with femtosecond laser …
Multifunctional biomaterials that can provide physical, electrical, and structural cues to cells
and tissues are highly desirable to mimic the important characteristics of native tissues and …
and tissues are highly desirable to mimic the important characteristics of native tissues and …
Functional regeneration of tendons using scaffolds with physical anisotropy engineered via microarchitectural manipulation
Structural and hierarchical anisotropy underlies the structure-function relationship of most
living tissues. Attempts to exploit the interplay between cells and their immediate …
living tissues. Attempts to exploit the interplay between cells and their immediate …
In situ synthesis of polyurethane scaffolds with tunable properties by controlled crosslinking of tri-block copolymer and polycaprolactone triol for tissue regeneration
Mimicking the mechanical properties of native tissues is a critical criterion for an ideal tissue
engineering scaffold. However, most biodegradable synthetic materials, including polyester …
engineering scaffold. However, most biodegradable synthetic materials, including polyester …
Direct E‐jet printing of three‐dimensional fibrous scaffold for tendon tissue engineering
Tissue engineering (TE) offers a promising strategy to restore diseased tendon tissue.
However, a suitable scaffold for tendon TE has not been achieved with current fabrication …
However, a suitable scaffold for tendon TE has not been achieved with current fabrication …
4D anisotropic skeletal muscle tissue constructs fabricated by staircase effect strategy
Like the morphology of native tissue fiber arrangement (such as skeletal muscle),
unidirectional anisotropic scaffolds are highly desired as a means to guide cell behavior in …
unidirectional anisotropic scaffolds are highly desired as a means to guide cell behavior in …
Polyurethane/Nitrogen-Doped Graphene Quantum Dot (N-GQD) nanocomposites: synthesis, characterization, thermal, mechanical and shape memory properties
S Sarabiyan Nejad, M Rezaei… - … -Plastics Technology and …, 2020 - Taylor & Francis
ABSTRACT A series of polyurethane-based nanocomposites with different contents of N-
GQD nanoparticles were prepared via solution casting and in-situ polymerization methods …
GQD nanoparticles were prepared via solution casting and in-situ polymerization methods …