632 research outputs found
Magnetic nanoparticles as efficient bulk pinning centers in type-II superconductors
Enhancement of flux pinning by magnetic nanoparticles embedded into the bulk
of type-2 superconductor is studied both theoretically and experimentally.
Magnetic part of the pinning force associated with the interaction between a
spherical magnetic inclusion and an Abrikosov vortex was calculated in the
London approximation. Calculations are supported by the experimental results
obtained on sonochemically modified MgB2 superconductor with embedded magnetic
Fe2O3 nanoparticles and compared to MgB2 with nonmagnetic Mo2O5 pinning centers
of similar concentration and particle size distribution. It is shown that
ferromagnetic nanoparticles result in a considerable enhancement of vortex
pinning in large-kappa type-2 superconductors.Comment: PDF, 14 page
Insights on the mechanism of formation of protein microspheres in a biphasic system
Microspheres of bovine serum albumin (BSA) and silk fibroin are produced by applying ultrasound in a biphasic system consisting of an aqueous protein solution and an organic solvent. The protein microspheres are dispersed in an aqueous media where the protein remains at the interface covering the organic solvent. This only occurs when high shear forces are applied that induce changes to force the protein to the interface. Fourier transform infrared results indicate a large increase in the content of the β-sheet during the formation of silk fibroin microspheres. Molecular dynamics simulations show a clear adaption on the 3D structure of BSA when stabilized at the interface, without major changes in secondary structure. Further studies demonstrate that high water content, oil solvents, and larger peptides with separated and clear hydrophobic and hydrophilic areas lead to more stable and smaller spheres. This is the first time that these results are presented. We also present herein the rationale to produce tailored protein microspheres with a controlled size, controlled charge, and increased stability.This work was supported by Lidwine Project-Multifunctional medical textiles for wound (e.g., Decubitus) prevention and improved wound healing NMP2-CT-2006-026741. H.F. thanks POPH/FSE for cofinancing and FCT for Fellowship SFRH/BPD/38939/2007. We acknowledge Silvia Cappellozza from "Sezione Specializzata per la Bachicoltura" for the supply of silk cocoons
A magnetic field diagnostic for sonoluminescence
This study is motivated by the extraordinary process of single bubble
sonoluminescence (SBSL), where an acoustically driven spherical shock is
thought to power the emitted radiation. We propose new experiments using an
external magnetic field which can induce anisotropies in both the shock
propagation and radiation pattern. The effects will depend on the temperature,
conductivity, and size of the radiating region. Our predictions suggest that
such a laboratory experiment could serve as an important diagnostic in placing
bounds on these parameters and understanding the physics of sonoluminescence.Comment: Latex File, Two .eps files, 5 pages, submitted to PR
Cavitation-mediated transcutaneous delivery of protein and nucleotide-based antigen for rapid high-level immune responses
Alternatives are needed to remove the pain, injury, cross-infection, and hazardous waste associated with needle and syringe (N+S)-based vaccination. Reported here is the use of novel ultrasound-responsive protein cavitation nuclei (pCaN), formed using the model antigen bovine serum albumin (BSA), to achieve effective transcutaneous delivery. Upon exposure to ultrasound (US), these pCaN instigate cavitation events which propel themselves and co-located DNA vectors into the skin. US parameters as well as pCaN and DNA concentration are refined to achieve optimal expression of encoded luciferase transgene. Twenty-four hours post-treatment, luciferase expression in the skin, by IVIS imaging, was 1.67 × 106 ±941943, photons per sec for N+S intradermal injection and 1.49 × 106 ±261832 for cavitation-mediated delivery (p>0.05). Hence, there is no significant difference in luciferase level achieved, but improved homogeneity and reproducibility of expression are evident in mice treated using US-mediated cavitation. Despite this equivalence in luciferase levels, a >5× higher level (p<0.02) of anti-luciferase antibodies is achieved when cavitation is used versus N+S injection. Antibody levels against BSA, resulting from the use of BSA pCaN, are equivalent for the two groups. PCaN can be formed from a range of antigenic proteins and DNA can encode a range of antigenic proteins, so this approach has wide-ranging implications for needle-free vaccination
Sonoluminescing air bubbles rectify argon
The dynamics of single bubble sonoluminescence (SBSL) strongly depends on the
percentage of inert gas within the bubble. We propose a theory for this
dependence, based on a combination of principles from sonochemistry and
hydrodynamic stability. The nitrogen and oxygen dissociation and subsequent
reaction to water soluble gases implies that strongly forced air bubbles
eventually consist of pure argon. Thus it is the partial argon (or any other
inert gas) pressure which is relevant for stability. The theory provides
quantitative explanations for many aspects of SBSL.Comment: 4 page
Releasing dye encapsulated in proteinaceous microspheres on conductive fabrics by electric current
The current paper reports on the relase properties of conductive fabrics coated with proteinaceous microspheres containing a dye. The release of the dye was achieved by passing an electric current through the fabric. The conductivity of the polyester fibers resulted from nanosilver (Ag NPs) coated on the surface of these fibers. Both types of coatings (nanosilver coating and the coating of the proteinaceous microspheres) were performed using high-intensity ultrasonic waves. Two different types of dyes, hydrophilic RBBR (Remazol Brilliant Blue R) and hydrophobic ORO (Oil Red O), were encapsulated inside the microspheres (attached to the surface of polyester) and then released by applying an electric current. The Proteinaceous Microsphere (PM)-coated conductive fabrics could be used in medicine for drug release. The encapsulated dye can be replaced with a drug that could be released from the surface of fabrics by applying a low voltage
Homogeneous Bubble Nucleation driven by local hot spots: a Molecular Dynamics Study
We report a Molecular Dynamics study of homogenous bubble nucleation in a
Lennard-Jones fluid. The rate of bubble nucleation is estimated using
forward-flux sampling (FFS). We find that cavitation starts with compact
bubbles rather than with ramified structures as had been suggested by Shen and
Debenedetti (J. Chem. Phys. 111:3581, 1999). Our estimate of the
bubble-nucleation rate is higher than predicted on the basis of Classical
Nucleation Theory (CNT). Our simulations show that local temperature
fluctuations correlate strongly with subsequent bubble formation - this
mechanism is not taken into account in CNT
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