1,059 research outputs found
Streptococcus pneumoniae Is Desiccation Tolerant and Infectious upon Rehydration
Streptococcus pneumoniae (pneumococcus) is a frequent colonizer of the nasopharynx and one of the leading causative agents of otitis media, pneumonia, and meningitis. The current literature asserts that S. pneumoniae is transmitted person to person via respiratory droplets; however, environmental surfaces (fomites) have been linked to the spread of other respiratory pathogens. Desiccation tolerance has been to shown to be essential for long-term survival on dry surfaces. This study investigated the survival and infectivity of S. pneumoniae following desiccation under ambient conditions. We recovered viable bacteria after all desiccation periods tested, ranging from 1 h to 4 weeks. Experiments conducted under nutrient limitation indicate that desiccation is a condition separate from starvation. Desiccation of an acapsular mutant and 15 different clinical isolates shows that S. pneumoniae desiccation tolerance is independent of the polysaccharide capsule and is a species-wide phenomenon, respectively. Experiments demonstrating that nondesiccated and desiccated S. pneumoniae strains colonize the nasopharynx at comparable levels, combined with their ability to survive long-term desiccation, suggest that fomites may serve as alternate sources of pneumococcal infection
Homogenization of weakly coupled systems of Hamilton--Jacobi equations with fast switching rates
We consider homogenization for weakly coupled systems of Hamilton--Jacobi
equations with fast switching rates. The fast switching rate terms force the
solutions converge to the same limit, which is a solution of the effective
equation. We discover the appearance of the initial layers, which appear
naturally when we consider the systems with different initial data and analyze
them rigorously. In particular, we obtain matched asymptotic solutions of the
systems and rate of convergence. We also investigate properties of the
effective Hamiltonian of weakly coupled systems and show some examples which do
not appear in the context of single equations.Comment: final version, to appear in Arch. Ration. Mech. Ana
Stabilization of controlled diffusions via Zubov's method
We consider a controlled stochastic system which is exponentially stabilizable in probability
near an attractor. Our aim is to characterize the set of points which can be driven
by a suitable control to the attractor with either positive probability or with probability
one. This will be done by associating to the stochastic system a suitable control problem
and the corresponding Zubov equation. We then show that this approach can be used
as a basis for numerical computations of these sets
Formation of a two-dimensional oxide via oxidation of a layered material
We investigate the oxidation mechanism of the layered model system GeAs. In situ X-ray photoelectron spectroscopy experiments performed by irradiating an individual flake with synchrotron radiation in the presence of oxygen show that while As leaves the GeAs surface upon oxidation, a Ge-rich ultrathin oxide film is being formed in the topmost layer of the flake. We develop a theoretical model that supports the layer-by-layer oxidation of GeAs, with a logarithmic kinetics. Finally, assuming that the activation energy for the oxidation process changes linearly with coverage, we estimate that the activation energy for As oxidation is almost twice that for Ge at room temperature
Photoresponse from noble metal nanoparticles-multi walled carbon nanotube composites
In this Letter, we investigated the photo-response of multi wall carbon nanotube-based composites
obtained from in situ thermal evaporation of noble metals (Au, Ag, and Cu) on the nanotube films. The
metal deposition process produced discrete nanoparticles on the nanotube outer walls. The
nanoparticle-carbon nanotube films were characterized by photo-electrochemical measurements in a
standard three electrode cell. The photocurrent from the decorated carbon nanotubes remarkably
increased with respect to that of bare multiwall tubes. With the aid of first-principle calculations, these
results are discussed in terms of metal nanoparticle–nanotube interactions and electronic charge transfer
at the interface.VC 2012 American Institute of Physics
Field emission from two-dimensional GeAs
GeAs is a layered material of the IV–V groups that is attracting growing attention for possible applications in electronic and optoelectronic devices. In this study, exfoliated multilayer GeAs nanoflakes are structurally characterized and used as the channel of back-gate field-effect transistors. It is shown that their gate-modulated p-type conduction is decreased by exposure to light or electron beam. Moreover, the observation of a field emission (FE) current demonstrates the suitability of GeAs nanoflakes as cold cathodes for electron emission and opens up new perspective applications of two-dimensional GeAs in vacuum electronics. FE occurs with a turn-on field of ~80 Vum-1 and attains a current density higher than 10 Acm-2, following the general Fowler–Nordheim model with high reproducibility
Ultrafast dynamics in unaligned MWCNTs decorated with metal nanoparticles
The relaxation dynamics of unaligned multi-walled carbon nanotubes decorated with metallic nanoparticles have been studied by using transient optical measurements. The fast dynamics due to the short-lived free-charge carriers excited by the pump are not affected by the presence of nanoparticles. Conversely, a second long dynamics, absent in bare carbon nanotubes, appears only in the decorated samples. A combination of experiment and theory allows us to ascribe this long dynamics to relaxation channels involving electronic states localized at the tube-nanoparticle interface
Tuning the doping of epitaxial graphene on a conventional semiconductor via substrate surface reconstruction
Combining scanning tunneling microscopy and angle-resolved photoemission spectroscopy, we demonstrate how to tune the doping of epitaxial graphene from p to n by exploiting the structural changes that occur spontaneously on the Ge surface upon thermal annealing. Furthermore, using first-principle calculations, we build a model that successfully reproduces the experimental observations. Since the ability to modify graphene electronic properties is of fundamental importance when it comes to applications, our results provide an important contribution toward the integration of graphene with conventional semiconductors
PENGARUH DESENTRALISASI FISKAL TERHADAP PERTUMBUHAN EKONOMI DI KABUPATEN/KOTA DI WILAYAH PROVINSI JAWA TIMUR
Penelitian ini bertujuan untuk mengetahui pengaruh DAU, DAK, PAD, dan DBH terhadap pertumbuhan ekonomi. Pertumbuhan ekonomi diukur dengan menggunakan data laju pertumbuhan ekonomi Kabupaten/Kota di Jawa Timur pada Tahun 2011-2015 Atas Dasar Harga Konstan Tahun 2010. Populasi dalam penelitian ini adalah kabupaten/kota di Provinsi Jawa Timur periode 2011-2015. Pengambilan sampel dalam penelitian ini menggunakan metode puposive sampling dan jumlah sampel yang memenuhi kriteria sebanyak 190 sampel. Data yang digunakan dalam penelitian ini merupakan data sekunder yang diperoleh dari Direktorat Jenderal Perimbangan Keuangan Kementerian Keuangan dan Badan Pusat Statistik. Pengujian hipotesis penelitian ini menggunakan analisis regresi berganda. Hasil uji dari regresi berganda menunjukkan bahwa DAU tidak berpengaruh terhadap pertumbuhan ekonomi. DAK dan PAD berpengaruh negatif terhadap pertumbuhan ekonomi. Sebaliknya, DBH berpengaruh positif terhadap pertumbuhan ekonomi
Synthesis of hydrophilic carbon nanotube sponge via post-growth thermal treatment
Clean water is vital for healthy ecosystems, for human life and, in a broader sense, it is directly linked to our socio-economic development. Nevertheless, climate change, pollution and increasing world population will likely make clean water scarcer in the near future. Consequently, it becomes imperative to develop novel materials and more efficient ways of treating waste and contaminated water. Carbon nanotube (CNT) sponges, for example, are excellent in removing oleophilic contaminants; however, due to their super-hydrophobic nature, they are not as efficient when it comes to absorbing water-soluble substances. Here, by means of a scalable method consisting of simply treating CNT sponges at mild temperatures in air, we attach oxygen-containing functional groups to the CNT surface. The functionalized sponge becomes hydrophilic while preserving its micro- and macro-structure and can therefore be used to successfully remove toxic contaminants, such as pesticides, that are dissolved in water. This discovery expands the current range of applications of CNT sponges to those fields in which a hydrophilic character of the sponge is more suitable
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