Near-field electrospinning and melt electrowriting of biomedical polymers—Progress and limitations
Near-field electrospinning (NFES) and melt electrowriting (MEW) are the process of
extruding a fiber due to the force exerted by an electric field and collecting the fiber before …
extruding a fiber due to the force exerted by an electric field and collecting the fiber before …
Electrohydrodynamic 3D printing of aqueous solutions
Among the various electrohydrodynamic (EHD) processing techniques, electrowriting (EW)
produces the most complex 3D structures. Aqueous solution EW similarly retains the …
produces the most complex 3D structures. Aqueous solution EW similarly retains the …
Rapid Magnetically Directed Assembly of Pre‐Patterned Capillary‐Scale Microvessels
Capillary scale vascularization is critical to the survival of engineered 3D tissues and
remains an outstanding challenge for the field of tissue engineering. Current methods to …
remains an outstanding challenge for the field of tissue engineering. Current methods to …
Effect of Carbonization Temperature on Microstructures and Properties of Electrospun Tantalum Carbide/Carbon Fibers
Compared with traditional metal materials, carbon-based materials have the advantages of
low density, high conductivity, good chemical stability, etc., and can be used as reliable …
low density, high conductivity, good chemical stability, etc., and can be used as reliable …
The Past, Present, and Future of Tubular Melt Electrowritten Constructs to Mimic Small Diameter Blood Vessels–A Stable Process?
Melt Electrowriting (MEW) is a continuously growing manufacturing platform. Its advantage is
the consistent production of micro‐to nanometer fibers, that stack intricately, forming …
the consistent production of micro‐to nanometer fibers, that stack intricately, forming …
Dendrite-Suppressing Three-Dimensional Frameworks Enabled by Electrowriting for Anode-Free Batteries
A solution electrowriting method was developed to enable reversible lithium (Li) plating and
strip** processes for anode-free Li batteries. This method merges the broad applicability …
strip** processes for anode-free Li batteries. This method merges the broad applicability …
[HTML][HTML] High-Precision Bioactive Scaffold with dECM and Extracellular Vesicles Targeting 4E-BP Inhibition for Cartilage Injury Repair
Y Han, Y Dong, B Jia, X Shi, H Zhao, S Li, H Wang… - Materials Today Bio, 2024 - Elsevier
The restoration of cartilage injuries remains a formidable challenge in orthopedics, chiefly
attributed to the absence of vascularization and innervation in cartilage. Decellularized …
attributed to the absence of vascularization and innervation in cartilage. Decellularized …
The Design and Fabrication of Engineered Tubular Tissue Constructs Enabled by Electrohydrodynamic Fabrication Techniques: A Review
Electrohydrodynamic processes have emerged as promising methods for fabricating
polymetric fiber‐based artificial tubular tissues. Existing review articles focus on the …
polymetric fiber‐based artificial tubular tissues. Existing review articles focus on the …
Electrowriting of SU-8 Microfibers
As microfiber-based additive manufacturing (AM) technologies, melt electrowriting (MEW)
and solution electrowriting (SEW) have demonstrated efficacy with more biomedically …
and solution electrowriting (SEW) have demonstrated efficacy with more biomedically …
Enhanced chitosan fibres for skin regeneration: solution blow spinning and incorporation with platelet lysate and tannic acid
In this study, we developed and characterised enhanced chitosan/polyethylene oxide (PEO)
nanofibre scaffolds using solution blow spinning (SBS) for potential application in skin tissue …
nanofibre scaffolds using solution blow spinning (SBS) for potential application in skin tissue …