[HTML][HTML] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - Scientific reports, 2016 - nature.com
Abstract Three-dimensional (3D) customized scaffolds capable to mimic a native
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - 2016 - aaltodoc.aalto.fi
Abstract Three-dimensional (3D) customized scaffolds capable to mimic a native
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
[引用][C] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, T Neuman, R Ivanov, I Hussainova… - Scientific Reports, 2016 - elibrary.ru
This research was supported by the Estonian Research Council under the personal
research grant PUT1093 (IH) and a grant from PROTOTRON foundation (Estonia) under …
research grant PUT1093 (IH) and a grant from PROTOTRON foundation (Estonia) under …
Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik… - Scientific …, 2016 - pubmed.ncbi.nlm.nih.gov
Three-dimensional (3D) customized scaffolds capable to mimic a native extracellular matrix
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour.
J Kazantseva, R Ivanov, M Gasik, T Neuman… - Scientific …, 2016 - europepmc.org
Abstract Three-dimensional (3D) customized scaffolds capable to mimic a native
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
[PDF][PDF] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - researchgate.net
Three-dimensional (3D) customized scaffolds capable to mimic a native extracellular matrix
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
[PDF][PDF] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - cyberleninka.org
Three-dimensional (3D) customized scaffolds capable to mimic a native extracellular matrix
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
[PDF][PDF] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - acris.aalto.fi
Three-dimensional (3D) customized scaffolds capable to mimic a native extracellular matrix
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
open new frontiers in cells manipulation and advanced therapy. The major challenge is in a …
Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - Scientific …, 2016 - research.aalto.fi
Abstract Three-dimensional (3D) customized scaffolds capable to mimic a native
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
[HTML][HTML] Graphene-augmented nanofiber scaffolds demonstrate new features in cells behaviour
J Kazantseva, R Ivanov, M Gasik, T Neuman… - Scientific …, 2016 - ncbi.nlm.nih.gov
Abstract Three-dimensional (3D) customized scaffolds capable to mimic a native
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …
extracellular matrix open new frontiers in cells manipulation and advanced therapy. The …