Mass Spectrometry: Structure Determination of Proteins and Peptides

Herein, the strontium bioactive glass with ferrite composites is studied for the application of biocompatibility and magnetic hyperthermia. The bioactive glass SrBG (46.1SiO2–21.9CaO–24.4Na2O–2.6P2O5–5SrO) prepared by the melt quench technique at 1400 °C and manganese ferrite (MnFe2O4) prepared by the modified microwave reflux oven are mixed together and sintered at 400 °C for 6 h for making composites. The in vitro bioactivity of these composites is observed by immersing in simulated body fluid (SBF). The growth of the precipitated hydroxyapatite phase observed after SBF treatment is confirmed by the X‐ray diffractometer (XRD), Fourier transform infrared (FTIR) spectrometer, and scanning electron microscope (SEM) results. The in vitro cell viability assessment of these composites with MG‐63 cell lines indicates that the composites are biocompatible in nature. Furthermore, these composites show the antibacterial effect on the E. coli and S. Aureus bacteria cells. The room temperature superparamagnetic behavior accompanied by the heating ability in these composites proves their potential role for hyperthermia applications.

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Investigation of optical properties and electrical conductivity mechanism of Fe2O3–Sm2O3–ZnO–P2O5 quaternary glass nanocomposite systems

Singh

Biswas

Shah³

et al. 2021

Materialia

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Magnetic and dielectric properties of Zn substituted cobalt oxide nanoparticles

Duvuru

Alla

Shaw

et al. 2019

Ceramics International

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Nanocomposite of (α-Mn3O4/MnO)@rGO as a high performance electrode material for supercapacitors

Gangwar

Das

Shaw

et al. 2021

Electrochimica Acta

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Investigation of optical properties and electrical conductivity mechanism of Fe2O3–Sm2O3–ZnO–P2O5 quaternary glass nanocomposite systems

Magnetic and dielectric properties of Zn substituted cobalt oxide nanoparticles

Nanocomposite of (α-Mn3O4/MnO)@rGO as a high performance electrode material for supercapacitors

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