Mine Demir scite author profile

Abstract:We report on the synthesis of Mn 3 O 4 nanoparticles (NPs) using a novel sonochemical method without requiring any pH adjustment.Synthesized material was identified as tetragonal hausmannite crystal structure model of Mn 3 O 4 from XRD analysis. Crystallite size was estimated from x-ray line profile fitting to be 17±5 nm. FTIR analysis revealed stretching vibrations of metal ions in tetrahedral and octahedral coordination confirming the crystal structure. TEM analysis revealed a dominantly cubic morphology of NPs with an average size of ~20 nm. Magnetic evaluation revealed a blocking temperature, T B of 40 K above which the material behaves paramagnetic. Asymmetric coercive field is attributed to the interaction between ferromagnetic Mn 3 O 4 and antiferromagnetic Mn oxide at the surface of nanoparticles.

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Ultrasonication for Environmentally Friendly Preparation of Antimicrobial and Catalytically Active Nanocomposites of Cellulosic Textiles

Kwiczak‐Yiğitbaşı

Demir

Ahan

et al. 2020

ACS Sustainable Chem. Eng.

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The global demand for sustainable and functional fibers and textile materials is increasing with the pressure to limit the synthetic petroleum-based counterparts. In this study, we use ultrasonication for the preparation of eco-friendly cellulose fabrics bearing silver or gold nanoparticles (NPs). The mechanochemistry of cellulose is based on the breakage of glycosidic bonds and the formation of mechanoradicals. These mechanoradicals can reduce Au 3+ and Ag + ions in solution, and the reduced metals can be stabilized by the cellulose chains as nanoparticles. Here, we formed the mechanoradicals in the fabrics by sonication (on the order of 10 18 per gram), which is confirmed by ESR. The sizes and the metallic nature of NPs and the structural and morphological changes in the fabrics upon ultrasonication were studied by SEM, XPS, FTIR-ATR, XRD, and TEM. The displayed preparation method is shown to yield antibacterial AgNP-fabric and catalytically active AuNP-fabric composites, with up to a 14% yield of metal ion reduction. Since the method involves only the sonication of the fabric in aqueous solutions, and uses no hazardous reducing and stabilizing agents, it provides quick and environment-friendly access to fabric nanocomposites, which have applications in medical textiles, catalysis, and materials for energy.

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Reversible immobilization of BSA on Cu-chelated PAMAM dendrimer modified iron oxide nanoparticles

Demir

Şenel

Baykal

2014

Applied Surface Science

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Synthesis, Characterization, and Dielectric Properties of BaFe10(Mn2+Zn2+Zn2+)O19 Hexaferrite

Baykal

Demir

Ünal

et al. 2015

J Supercond Nov Magn

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Mine Demir

A sustainable preparation of catalytically active and antibacterial cellulose metal nanocompositesviaball milling of cellulose

Sonochemical synthesis and chracterization of Mn3O4 nanoparticles

Ultrasonication for Environmentally Friendly Preparation of Antimicrobial and Catalytically Active Nanocomposites of Cellulosic Textiles

Reversible immobilization of BSA on Cu-chelated PAMAM dendrimer modified iron oxide nanoparticles

Synthesis, Characterization, and Dielectric Properties of BaFe10(Mn2+Zn2+Zn2+)O19 Hexaferrite

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