Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications

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Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications Publisher

Bigham A¹ ; Foroughi F¹ ; Motamedi M¹ ; Rafienia M²

Show Affiliations

1. Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran
2. Biosensor Research Center, Isfahan University of Medical Sciences, Isfahan, Iran

Source: Ceramics International Published:2018

Abstract

Multifunctional materials have recently gained substantial attraction in bone tissue engineering because of their capabilities to solve essential problems after implantation including inflammation and osteomyelitis and also bone cancerous tissues through hyperthermia treatment. The aim of this study was to design and develop a new multifunctional composite containing a magnetic zinc ferrite as a core, and nanoporous zinc silicate as a shell via a two-step synthesis strategy to meet all above targets simultaneously. ZnFe2O4 particles are synthesized via solvothermal method and then coated through surfactant-assisted sol-gel method to obtain zinc silicate-ZnFe2O4 composite using cetyltrimethylammoniumbromide (CTAB) as a surfactant. The XRD results show that the composite has a glass-ceramic structure. The FESEM micrographs indicate the increase in the size of ZnFe2O4 particles because of zinc silicate formation around them. The vibrating sample magnetometer (VSM) results reveal that the formation of zinc silicate over ZnFe2O4 particles caused the magnetization saturation (Ms) to be reduced from 43 to 30 emu g−1. The antibacterial activity of the composite is evaluated against S. aureus and E. coli bacteria. Heat generation capability of the composite is assessed in vitro and results show that the composite reached the saturation temperature of 45 °C up to 510 s with 200 Oe magnetic field and constant 200 kHz frequency. Potential application of the composite as a controlled release system is assessed in vitro up to 240 h. The cell compatibility of the composite with different concentrations is assessed using osteoblast-like cells (MG63) up to 48 h. © 2018 Elsevier Ltd and Techna Group S.r.l.

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Style	Citing Format
MLA	Bigham A, et al.. "Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications." Ceramics International, vol. 44, no. 10, 2018, pp. 11798-11806.
APA	Bigham A, Foroughi F, Motamedi M, Rafienia M (2018). Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications. Ceramics International, 44(10), 11798-11806.
Chicago	Bigham A, Foroughi F, Motamedi M, Rafienia M. "Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications." Ceramics International 44, no. 10 (2018): 11798-11806.
Harvard	Bigham A et al. (2018) 'Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications', Ceramics International, 44(10), pp. 11798-11806.
Vancouver	Bigham A, Foroughi F, Motamedi M, Rafienia M. Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications. Ceramics International. 2018;44(10):11798-11806.
BibTex	@article{ author = {Bigham A and Foroughi F and Motamedi M and Rafienia M}, title = {Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications}, journal = {Ceramics International}, volume = {44}, number = {10}, pages = {11798-11806}, year = {2018} }
RIS	TY - JOUR AU - Bigham A AU - Foroughi F AU - Motamedi M AU - Rafienia M TI - Multifunctional Nanoporous Magnetic Zinc Silicate-Znfe2o4 Core-Shell Composite for Bone Tissue Engineering Applications JO - Ceramics International VL - 44 IS - 10 SP - 11798 EP - 11806 PY - 2018 ER -

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