(C) 2010 Wiley Periodicals, Inc J Appl Polym Sci 120: 2606-2614,

(C) 2010 Wiley Periodicals, Inc. J Appl Polym Sci 120: 2606-2614, 2011″
“Ge2Sb2Te5-TaOx (GST-TaOx) composite films were used as a medium for phase change memory (PCM). As TaOx concentration was increased from 0 to 38.3 mol %, the activation energy for crystallization was increased from 2.01 to 2.40 eV. Compared to GST (6.8%), the GST-TaOx (32.2 mol%) film had a lowered density change during crystallization. Residual stress of the GST-TaOx composite films was reduced by 40%. This improvement was attributed to smaller grain size LY3023414 clinical trial of the GST-TaOx films, which facilitated the relaxation of the stress via grain boundary diffusion

or sliding. Compared to pure GST PCM cell, reset voltage of the GST-TaOx cell was P005091 datasheet obviously reduced, which was attributed to the reduced thermal conductivity by incorporating TaOx into GST. Meanwhile, PCM cells based on the GST-TaOx composite films possess promising endurance characteristics, implying that they are potential candidates for random access memory. (C) 2011 American Institute of Physics. [doi:10.1063/1.3544432]“
“The genome of the influenza A virus consists of eight single-stranded negative sense RNA segments. Segmentation allows reassortment

of genes between influenza A virus strains when two strains infect one host cell. Reassortment may lead to the emergence of pandemic influenza viruses. The process of reassortment is limited by the necessity of a functional balance among viral genes. The nature of the functional constraint on reassortment is currenty not well understood. An insight into the basis of functional matching

of virus genes, its restrictions and its restoration after reassortment may be provided by the analysis of postreassortment mutations in model systems. This article summarizes the data on postreassortment amino acid changes in virus glycoproteins and polymerase proteins and their effect on the intergenic functional Birinapant in vivo match.”
“Under an electric field, spherical conducting particles in a dielectric liquid assemble into a dendritic tree in order to dissipate charge. Several topological measures characterize such networks, including degree distributions, Strahler numbers, and total external pathlengths. Here, scaling laws relating these measures to the number of nodes in the system are presented and shown to match diffusion limited aggregation (DLA) structures. Experimental bifurcation and stream-length ratios in this easily reproducible laboratory experiment are found to agree with DLA simulations and Horton’s laws for river networks. Certain scaling relations in transportation networks are known to originate from general features of networks. Here we find the experimental structures share properties with hydrological drainage networks. (C) 2011 American Institute of Physics. [doi:10.1063/1.

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