Bone-like nanocomposites based on self-assembled protein-based matrices with Ca2+ capturing capability
L Sang, J Huang, D Luo, Z Chen, X Li - Journal of Materials Science …, 2010 - Springer
In the present work, bone-like nanocomposites have been successfully synthesized based
on the mineralization of self-assembled protein-based microgels. Such mircogels were …
on the mineralization of self-assembled protein-based microgels. Such mircogels were …
Three‐dimensional macroporous graphene scaffolds for tissue engineering
The assembly of carbon nanomaterials into three‐dimensional (3D) porous scaffolds is
critical to harness their unique physiochemical properties for tissue engineering and …
critical to harness their unique physiochemical properties for tissue engineering and …
The synergistic effects of graphene-contained 3D-printed calcium silicate/poly-ε-caprolactone scaffolds promote FGFR-induced osteogenic/angiogenic differentiation …
Graphene-contained calcium silicate (CS)/polycaprolactone (PCL) scaffold (GCP) provides
an alternative solution that can bring several bone formation properties, such as …
an alternative solution that can bring several bone formation properties, such as …
Graphene: A Multifaceted Carbon-Based Material for Bone Tissue Engineering Applications
Tissue engineering is an emerging technological field that aims to restore and replace
human tissues. A significant number of individuals require bone replacement annually as a …
human tissues. A significant number of individuals require bone replacement annually as a …
Multifunctional nanoengineered hydrogels consisting of black phosphorus nanosheets upregulate bone formation
Z Wang, J Zhao, W Tang, L Hu, X Chen, Y Su, C Zou… - Small, 2019 - Wiley Online Library
Tissue‐engineered hydrogels have received extensive attention as their mechanical
properties, chemical compositions, and biological signals can be dynamically modified for …
properties, chemical compositions, and biological signals can be dynamically modified for …
Multiscale porosity in a 3D printed gellan–gelatin composite for bone tissue engineering
The aim of this work was to develop a complex-shaped gelatin–gellan composite scaffold
with multiscale porosity using a combination of cryogenic 3D printing and lyophilization for …
with multiscale porosity using a combination of cryogenic 3D printing and lyophilization for …
De Novo Design of Functional Coassembling Organic–Inorganic Hydrogels for Hierarchical Mineralization and Neovascularization
BO Okesola, AK Mendoza-Martinez, G Cidonio… - ACS …, 2021 - ACS Publications
Synthetic nanostructured materials incorporating both organic and inorganic components
offer a unique, powerful, and versatile class of materials for widespread applications due to …
offer a unique, powerful, and versatile class of materials for widespread applications due to …
[HTML][HTML] Graphene oxide enhances chitosan-based 3D scaffold properties for bone tissue engineering
The main goal of bone tissue engineering (BTE) is to refine and repair major bone defects
based on bioactive biomaterials with distinct properties that can induce and support bone …
based on bioactive biomaterials with distinct properties that can induce and support bone …
Recent advances in graphene-based polymer composite scaffolds for bone/cartilage tissue engineering
To date, tissue engineering and regenerative medicine have been substantially advanced
using bioactive functional nanomaterials. Having capitalized on various safe and …
using bioactive functional nanomaterials. Having capitalized on various safe and …
Modified graphene oxide nanoplates reinforced 3D printed multifunctional scaffold for bone tissue engineering
A Sharma, S Gupta, TS Sampathkumar… - Biomaterials Advances, 2022 - Elsevier
Successful regeneration of load-bearing bone defects remains a major challenge in clinical
orthopaedics. Designing biologically active 3-dimensional scaffolds possessing …
orthopaedics. Designing biologically active 3-dimensional scaffolds possessing …