These functionalized Fe3O4@C18 nanoparticles exhibited also the a

These functionalized Fe3O4@C18 nanoparticles exhibited also the ability to stabilize, limit the volatilization, and potentiate the fungicidal effect of Salvia officinalis essential oil [43]. On the other hand, limonene and eugenol, the major compounds of essential oils extracted from

Anethum graveolens (56.53%) and Eugenia caryophyllata (92.45%) proved, to exhibit very good antimicrobial properties [28, 44]. In this paper, we report the www.selleckchem.com/products/anlotinib-al3818.html successful fabrication of two phyto-nanofluids for coating textile wound dressings, based on limonene and eugenol loaded in magnetic nanoparticles, in order to increase their microbicidal and anti-biofilm properties and, thus, combat the cutaneous opportunistic infections. click here The obtained ��-Nicotinamide solubility dmso nanostructure was characterized by XRD as illustrated in Figure 2, and the results showed that the diffraction patterns and the relative intensities of all diffraction peaks match well with magnetite (based on ICDD 82–1533). Also, the sample has the characteristics

of bulk magnetite crystallite phase, and the broad peaks suggest the nanocrystallite nature of magnetite particles [45, 46], the average crystallite size being 10.58 nm (based on Scherrer formula). FT-IR spectrum of the nanostructure exhibits a characteristic broad peak of magnetite at about 533 cm−1 (Fe-O stretching) [47]. The FT-IR analysis also identified the organic coating on the surface of the magnetite nanoparticles (Figure 3). The peaks recorded at about 1,572 and 1,701 cm−1 at FT-IR spectrum of the nanostructure can be assigned to structures of the type COO−M+. The peaks at 2,915 and 2,848 cm−1 were assigned to stretching vibration of C-H (Figure 3). The nanostructure diameter was approximated from the TEM images (as presented in Figure 4), showing that the particles are Smoothened spherical with an average

size of 10 nm which, corroborated with the XRD data, means that the obtained nanoparticles are formed by only one crystallite. The presence of essential oils induces a strong modification of the thermal behavior of the two nanostructured materials (Figure 5). In the case of phyto-E-nanostructurated material, the weight loss increases with about 4.6%, which can be mainly attributed to the eugenol adsorption onto the nanomaterial. The weight loss was surprisingly affected in the phyto-L-nanostructurated material, where the weight loss became even lower than that corresponding to Fe3O4@C16. We explain this anomaly by the fact that limonene and C16 interact by special hydrophobic interactions, and the complex may be partially lost during the drying step. Figure 2 XRD pattern of the nanostructure. Figure 3 FT-IR spectrum of the nanostructure. Figure 4 HR-TEM images of the fabricated nanostructure.

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