[HTML][HTML] 3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization.
J Zhang, H Eyisoylu, XH Qin, M Rubert… - Acta Biomaterialia, 2020 - europepmc.org
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert… - Acta …, 2021 - research-collection.ethz.ch
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
3D Bioprinting of Graphene Oxide-Incorporated Cell-Laden Bone Mimicking Scaffolds for Promoting Scaffold Fidelity, Osteogenic Differentiation and Mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert… - Osteogenic Differentiation … - papers.ssrn.com
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
3D Bioprinting of Graphene Oxide-Incorporated Cell-laden Bone Mimicking Scaffolds for Promoting Scaffold Fidelity, Osteogenic Differentiation and Mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert, R Müller - bioRxiv, 2020 - biorxiv.org
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
[引用][C] 3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert, R Müller - Acta Biomaterialia, 2021 - cir.nii.ac.jp
3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for
promoting scaffold fidelity, osteogenic differentiation and mineralization | CiNii Research CiNii …
promoting scaffold fidelity, osteogenic differentiation and mineralization | CiNii Research CiNii …
[PDF][PDF] 3D Bioprinting of Graphene Oxide-Incorporated Cell-laden Bone Mimicking Scaffolds for Promoting Scaffold Fidelity, Osteogenic Differentiation and …
J Zhang, H Eyisoylu, XH Qin, M Rubert, R Müller - academia.edu
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
[PDF][PDF] 3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert… - Acta Biomaterialia, 2021 - researchgate.net
abstract Bioprinting is a promising technique for facilitating the fabrication of engineered
bone tissues for patientspecific defect repair and for developing in vitro tissue/organ models …
bone tissues for patientspecific defect repair and for developing in vitro tissue/organ models …
[PDF][PDF] 3D Bioprinting of Graphene Oxide-Incorporated Cell-laden Bone Mimicking Scaffolds for Promoting Scaffold Fidelity, Osteogenic Differentiation and …
J Zhang, H Eyisoylu, XH Qin, M Rubert, R Müller - scholar.archive.org
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
3D bioprinting of graphene oxide-incorporated cell-laden bone mimicking scaffolds for promoting scaffold fidelity, osteogenic differentiation and mineralization
J Zhang, H Eyisoylu, XH Qin, M Rubert… - Acta …, 2021 - pubmed.ncbi.nlm.nih.gov
Bioprinting is a promising technique for facilitating the fabrication of engineered bone
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …
tissues for patient-specific defect repair and for developing in vitro tissue/organ models for …