Add to ORKGThe field of bone tissue engineering deals with the issue of developing compatible and non-toxic scaffolds, which provide the growing bone cells with the necessary mechanical support and suitable stimulation for proper growth and proliferation. Polyvinylidene fluoride (PVDF) nanofibers are considered to be a suitable scaffold due to their biocompatibility, fibrous structure, and characteristic piezoelectric properties, which have proven to be an important factor in cell regeneration. For this work, flexible PVDF nanofibers were successfully spun, from which the scaffolding needed for the subsequent settling of cultivated osteoblasts was created. Thereafter the structure and compatibility of this nanomaterial were assessed in relation to the...
Piezoelectric polymer, poly(vinylidene-trifluoroethylene) (P(VDF-TrFE)), exhibits excellent characte...
Tissue engineering often rely on scaffolds for supporting cell differentiation and growth. Novel par...
The incidence of bone disorders worldwide is increasing and new and more effective strategies for bo...
The field of bone tissue engineering deals with the issue of developing compatible and non-toxic sca...
Piezoelectric properties of materials are becoming a more relevant area of research for biomaterials...
For the improvement of tissue regeneration,functional polymer scaffolds that can mimic the extracell...
Tissue engineering is concerned on the growth of tissue making organs for implantation back to the d...
Tissue engineering aims at repairing damaged tissues and recovering the lost or degraded biological ...
To provide adequate conditions for the regeneration of damaged bone, it is necessary to develop piez...
he potential of piezoelectric biomaterials for bone tissue engineering is demonstrated. This work pr...
This study represents the unique analysis of the electrospun scaffolds with the controlled and stabl...
In this work, the PVDF composite, also known as polyvinylidene fluoride in the formof thin nanofibre...
Blood transfusion or blood products, such as plasma, have a long history in improving health, but to...
Here we report on the development of a hybrid nanofibrous scaffold made from polyvinylidene fluoride...
Energy harvesting systems have benefited from the use of one-dimensional nanostructures such as nano...
Piezoelectric polymer, poly(vinylidene-trifluoroethylene) (P(VDF-TrFE)), exhibits excellent characte...
Tissue engineering often rely on scaffolds for supporting cell differentiation and growth. Novel par...
The incidence of bone disorders worldwide is increasing and new and more effective strategies for bo...
The field of bone tissue engineering deals with the issue of developing compatible and non-toxic sca...
Piezoelectric properties of materials are becoming a more relevant area of research for biomaterials...
For the improvement of tissue regeneration,functional polymer scaffolds that can mimic the extracell...
Tissue engineering is concerned on the growth of tissue making organs for implantation back to the d...
Tissue engineering aims at repairing damaged tissues and recovering the lost or degraded biological ...
To provide adequate conditions for the regeneration of damaged bone, it is necessary to develop piez...
he potential of piezoelectric biomaterials for bone tissue engineering is demonstrated. This work pr...
This study represents the unique analysis of the electrospun scaffolds with the controlled and stabl...
In this work, the PVDF composite, also known as polyvinylidene fluoride in the formof thin nanofibre...
Blood transfusion or blood products, such as plasma, have a long history in improving health, but to...
Here we report on the development of a hybrid nanofibrous scaffold made from polyvinylidene fluoride...
Energy harvesting systems have benefited from the use of one-dimensional nanostructures such as nano...
Piezoelectric polymer, poly(vinylidene-trifluoroethylene) (P(VDF-TrFE)), exhibits excellent characte...
Tissue engineering often rely on scaffolds for supporting cell differentiation and growth. Novel par...
The incidence of bone disorders worldwide is increasing and new and more effective strategies for bo...