Federico Serpe
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Polymerizable inverse HIPEs-based inks towards 3D printing of highly tailorable polymeric materials Open
Due to its processing requirements, extrusion 3D printing of plastics is limited to a rather narrow range of thermoplastic polymers. Here we present a strategy to formulate 3D printing polymerizable inks with rheological features compatibl…
View article: Engineering a microfluidic-assisted 3D bioprinting approach for the hierarchical control deposition and compartmentalisation of graded bioinks
Engineering a microfluidic-assisted 3D bioprinting approach for the hierarchical control deposition and compartmentalisation of graded bioinks Open
The advent of 3D bioprinting has revolutionized tissue engineering and regenerative medicine. Today, tissues of single cell type can be fabricated with extreme resolution and printing fidelity. However, the ultimate functionality of the de…
View article: Aqueous two-phase bioinks for discrete packing and compartmentalisation of 3D bioprinted cells
Aqueous two-phase bioinks for discrete packing and compartmentalisation of 3D bioprinted cells Open
The unparalleled ability of aqueous two-phase systems (ATPS) to reproduce microscale cellular and biomaterial compartmentalisation to selectively modulate cell behaviour and functionality is ideal for tissue engineering and regenerative me…
Microfluidic 3D Bioprinting of Foamed Fibers with Controlled Micromorphology Open
The synergistic integration of microfluidic technologies with additive manufacturing systems is advancing the development of innovative platforms to 3D bioprint scaffolds for tissue engineering with unparalleled biological relevance. Signi…
Engineering a microfluidic-assisted 3D bioprinting approach for the hierarchical control deposition and compartmentalisation of graded bioinks Open
The advent of 3D bioprinting has revolutionised tissue engineering and regenerative medicine (TERM). Today, tissues of single cell type can be printed with extreme resolution and printing fidelity. However, the ultimate functionality of th…
Microfluidic fiber spinning for 3D bioprinting: Harnessing microchannels to build macrotissues Open
Microfluidics is rapidly revolutionizing the scientific panorama, providing unmatched high-throughput platforms that find application in numerous areas of physics, chemistry, biology, and materials science. Recently, microfluidic chips hav…