3D electrospun synthetic extracellular matrix for tissue regeneration
Electrospinning is considered the most versatile micro‐/nanofiber fabrication technology.
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
3D Electrospun Synthetic Extracellular Matrix for Tissue Regeneration
Y Su, MS Toftdal, A Le Friec, MD Dong, X Han, M Chen - Small Science, 2021 - pure.au.dk
Electrospinning is considered the most versatile micro-/nanofiber fabrication technology.
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
3D Electrospun Synthetic Extracellular Matrix for Tissue Regeneration
Y Su, MS Toftdal, A Le Friec, M Dong, X Han… - Small …, 2021 - search.proquest.com
Electrospinning is considered the most versatile micro‐/nanofiber fabrication technology.
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
The electrospun fibers hold high surface area, desired mechanical properties, controlled …
[PDF][PDF] 3D Electrospun Synthetic Extracellular Matrix for Tissue Regeneration
Y Su, MS Toftdal, A Le Friec, M Dong, X Han, M Chen - 2021 - scholar.archive.org
Tissue regeneration is a rapidly evolving and interdisciplinary field at the intersection of life
science, biology, material science, and engineering. Centrally, it involves functional cell-free …
science, biology, material science, and engineering. Centrally, it involves functional cell-free …