[HTML][HTML] Combining materials obtained by 3D-printing and electrospinning from commercial polylactide filament to produce biocompatible composites
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - Polymers, 2021 - mdpi.com
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites.
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - Polymers, 2021 - europepmc.org
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
[PDF][PDF] Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites. Polymers …
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - 2021 - academia.edu
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - …, 2021 - pubmed.ncbi.nlm.nih.gov
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - …, 2021 - search.proquest.com
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites.
P Romero-Araya, V Pino, A Nenen… - Polymers …, 2021 - search.ebscohost.com
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
[HTML][HTML] Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - Polymers, 2021 - ncbi.nlm.nih.gov
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
[PDF][PDF] Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites. Polymers …
P Romero-Araya, V Pino, A Nenen, V Cárdenas… - 2021 - academia.edu
The design of scaffolds to reach similar three-dimensional structures mimicking the natural
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …
and fibrous environment of some cells is a challenge for tissue engineering, and 3D-printing …