We prepared cerium oxide nanoparticles having size range of 160 nm by using simple and effective sol-gel process and evaluated its wound healing potential. Quite interestingly we found that 2% nanoceria enhanced wound healing activity to a considerable extent which could be supported by increased amount of Hydroxylproline content (4.7 g/ml), wound tensile strength of 44.88 N/cm 2 and wound closure time, which are quite high when compared to other treated groups. Histopathology also showed no inflammation and increased amount of collagen production in group treated with 2% nanoceria. The prepared nanoparticles were characterized by SEM and XRD. The probable mechanism may be due to the dual oxidation state of cerium oxide which will help in scavenging ROS and reduce oxidative stress locally which is required for wound healing.
Thin films were grown by vacuum co-evaporation of CsI and PbI 2 compounds from two independent crucibles. X-ray diffraction spectroscopy revealed formation of CsPbI 3 and Cs 4 PbI 6 nanoaggregates in the thin film samples and gave an estimate of their volume percentage as well. It provided also the grain size estimates, which were compared with direct observation of a thin film surface by atomic force microscopy. The absorption, luminescence and decay kinetics characteristics of thin films grown were measured. The optical characteristics of the mentioned ternary nanoaggregates were determined and compared with those of CsPbX 3 and Cs 4 PbX 6 (X = Cl, Br) bulk structures.
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