The magnetic measurements at room temperature, using a vibrating

The magnetic measurements at room temperature, using a vibrating sample magnetometer (VSM), and the obtained magnetic parameters revealed that the investigated nanocomposites belong to a category of magnetically soft materials that find widespread applications in contemporary fine technologies. Optical absorption spectra were measured in the ultraviolet (UV)visible region and the fundamental MRT67307 cost absorption edge E(a), the energy gap E(g) and width of the tail of localized states E(e) were evaluated and discussed in terms of the solid band theory. The monotonic increase of these

optical parameters with the dopant concentration may be attributed to probable segregation effects occurring in the amorphous host matrix. (C) 2011 Wiley Periodicals, Inc. J Appl Polym Sci 122: 2121-2129, 2011″
“Micro-Raman

scattering and its temperature dependencies have been used to investigate lattice dynamic BMS-754807 mouse properties of beta-FeSi2 thin films epitaxially grown on Si (111) substrates by sputtering at elevated temperatures. A linear correlation between the blueshift in phonon energies and the lattice expansions in the growth direction of beta-FeSi2 is observed. The shifting rate of the Raman mode at 248 cm(-1) (13.6 cm(-1)/%) is much larger than that of the mode at 194 cm(-1) (8.4 cm(-1)/%) due to the involvement of radial bonding vibrations between Fe and Si atoms. Temperature-dependent Raman scattering, which is hitherto unknown for beta-FeSi2, reveals an extremely small phonon line width broadening in the range of 80-480 K. It is revealed that the broadening in the phonon line widths contributed by phonon-phonon scattering is weaker and is masked by phonon-hole couplings in beta-FeSi2, while the effect of phonon-hole coupling on phonon line width broadening is saturated at the studied temperatures due to the high impurity densities. (C) 2011 American Institute of Physics. [doi:10.1063/1.3573671]“
“Diabetes is characterized by the loss, or gradual dysfunction, of insulin-producing pancreatic. beta-cell. Although. beta-cells can replicate in younger adults, the available diabetes therapies do not

specifically target. beta-cell regeneration. Novel approaches are needed to discover new therapeutics and to understand the contributions of endocrine AZD8186 inhibitor progenitors and. beta-cell regeneration during islet expansion. Here, we show that the regulators of G protein signaling Rgs16 and Rgs8 are expressed in pancreatic progenitor and endocrine cells during development, then extinguished in adults, but reactivated in models of both type 1 and type 2 diabetes. Exendin-4, a glucagon-like peptide 1 (Glp-1)/ incretin mimetic that stimulates. beta-cell expansion, insulin secretion and normalization of blood glucose levels in diabetics, also promoted re-expression of Rgs16::GFP within a few days in pancreatic ductalassociated cells and islet. beta-cells. These findings show that Rgs16::GFP and Rgs8::GFP are novel and early reporters of G protein-coupled receptor (GPCR)-stimulated.

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