Mahla Sadat Nezhadfard scite author profile

Mahla Sadat Nezhadfard

2Publications

1Citation Statement Received

38Citation Statements Given

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102

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University of Guilan

Publications

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Chitosan/Graphene Oxide Nanocomposite Coatings on Mg alloy: Corrosion and Biocompatibility Properties

Montazeri

Hamghavandi

Nezhadfard

et al. 2022

Preprint

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In the present study, optimal conditions for the fabrication of chitosan (CS)/graphene oxide (GO) nanocomposite coatings were evaluated by the pulse electrodeposition process (PED) on Mg–2wt%Zn scaffolds. The size distribution of CS, GO, and nanocomposite coatings were evaluated using dynamic light scattering (DLS). The coatings microstructure and morphologies were investigated by the Fourier transform infrared spectroscopy (FT-IR), ultraviolet-visible spectroscopy (UV- visible), Raman spectroscopy, thermogravimetric analysis (TGA), derivative thermal gravimetric (DTG), differential thermal analysis (DTA), and scanning electron microscopy (SEM). Taguchi statistical method was used to optimize the effect of PED parameters, including peak current density (CD) and duty cycle (DC) as well as GO nanosheets content (1,2, and 3wt%). Results showed that optimal coatings were produced under the conditions of 2 wt% GO, CD = 20 mA/cm 2, DC = 0.5 and pH = 5. The process's time, temperature, and frequency were 20 min, 37oC, and 1000 Hz. The biocompatibility of coatings was assessed by in vitro test. The results of cell viability and adhesion of MG63 cells on optimal coating are promising for application in bone tissue engineering.

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Chitosan/Graphene Oxide Nanocomposite Coatings on Magnesium Alloy: Corrosion and Biocompatibility Properties

Montazeri

Hamghavandi

Nezhadfard

et al. 2023

View full text Add to dashboard Cite

In the present study, optimal conditions for the fabrication of chitosan (CS)/graphene oxide (GO) nanocomposite coatings were evaluated by the pulse electrodeposition (PED) process on Mg–2wt%Zn scaffolds. The size distribution of CS, GO suspension, and CS/GO composite was evaluated using dynamic light scattering. The coatings’ microstructure and morphologies were investigated by Fourier-transform infrared spectroscopy, ultraviolet-visible spectroscopy, Raman spectroscopy, thermogravimetric analysis, derivative thermogravimetric analysis, differential thermal analysis, and scanning electron microscopy. The Taguchi statistical method was used to optimize PED parameters, including peak current density (j), duty cycle, and GO nanosheets content (1, 2, and 3 percent by weight [wt%]). Results showed that optimal coatings were produced under the conditions of 2 wt% GO, j = 20 mA/cm2, duty cycle = 0.5, and pH = 5. The process’s time, temperature, and frequency were 20 min, 37°C, and 1,000 Hz. The biocompatibility of coatings was assessed by in vitro test. The results of cell viability and adhesion of MG63 cells on optimal coating are promising for application in bone tissue engineering.

show abstract

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