Add to ORKGThe main goal of this study was to take an effective approach to promote polylactic acid (PLA) bio-applications. In this regard, graphene oxide (GO) and spherical structure of GO-chitosan nano-hybrids (GO-CS) were successfully synthesized and characterized using transmission electron microscopy, atomic force microscopy, Fourier-transform infrared, UV�Vis, and elemental analyses. Thereafter, PLA scaffolds containing 1 wt and 2 wt of synthesized nanomaterials were fabricated through the solvent casting/particulate leaching procedure. Then, the biodegradability, cell adhesion, and bio-safety properties of the prepared scaffolds were investigated. The results of bio-degradation analyses demonstrated that the used nanomaterials prevented PLA f...
Graphene oxide (GO) usually serves as a reinforce phase in polymer because of its superior mechanica...
The application of natural polymer matrices as medical device components or food packaging materials...
Graphene oxide (GO) and a nanohydroxyapatite rod (nHA) of good biocompatibility were incorporated in...
Several biomaterials, including natural polymers, are used to increase cellular interactions as an e...
Several biomaterials, including natural polymers, are used to increase cellular interactions as an e...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Carbon nanostructures application, such as graphene (Gr) and graphene oxide (GO), provides suitable ...
Hypothesis: Among nanostructures, nanofibers and nanoparticles have a tremendous efficiency in tissu...
We designed graphene oxide composites with increased morphological and structural variability using ...
The main objective of this work was to find a way to increase the bio-applicability of graphene oxid...
Graphene oxide (GO) usually serves as a reinforce phase in polymer because of its superior mechanica...
The application of natural polymer matrices as medical device components or food packaging materials...
Graphene oxide (GO) and a nanohydroxyapatite rod (nHA) of good biocompatibility were incorporated in...
Several biomaterials, including natural polymers, are used to increase cellular interactions as an e...
Several biomaterials, including natural polymers, are used to increase cellular interactions as an e...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Tissue engineering is a highly interdisciplinary field of medicine aiming at regenerating damaged ti...
Carbon nanostructures application, such as graphene (Gr) and graphene oxide (GO), provides suitable ...
Hypothesis: Among nanostructures, nanofibers and nanoparticles have a tremendous efficiency in tissu...
We designed graphene oxide composites with increased morphological and structural variability using ...
The main objective of this work was to find a way to increase the bio-applicability of graphene oxid...
Graphene oxide (GO) usually serves as a reinforce phase in polymer because of its superior mechanica...
The application of natural polymer matrices as medical device components or food packaging materials...
Graphene oxide (GO) and a nanohydroxyapatite rod (nHA) of good biocompatibility were incorporated in...