Over the past decade, electrochemical anodization of self-organized TiO(2) nanotubes has been studied intensively with the main focus being on uniform diameters along the TiO(2) nanotube depth direction. In the present work, hierarchically branched TiO(2) nanotubes with tailored diameters and branch numbers are successfully achieved by adjusting the anodization voltage. Reducing the applied voltage by a factor of 1/√n causes a one trunk nanotube to diverge into n-branched TiO(2) nanotubes, whose diameters are 1/√n of the trunk nanotube diameter (n is an integer). Multiple layers of branched TiO(2) nanotubes are also obtained by further dividing the branched nanotubes when the applied voltage is further reduced step-by-step with a 1/√n factor. Enlargement and termination of TiO(2) nanotubes occur when the anodization voltage increases by √n times. Alternating increase and decrease in the applied voltage lead to a more sophisticated hierarchical structure of TiO(2) nanotubes. The fundamental understanding of these processes is discussed. 相似文献
Biofilm–material interactions are increasingly recognized as critical to success of some materials/devices and failure of others. We use a model system of dental monomers, salivary pellicles, and oral biofilms to demonstrate for the first time that degree of conversion of cross‐linked dimethacrylate polymers alters biofilm metabolic activity. This response is due primarily to leachable release (not surface chemistry) and is complex, with no changes in some biofilm measurements (i.e., biomass), and time‐ and leachable‐dependent responses in others (i.e., metabolic activity). These results highlight the need for considering biofilm‐material interactions when designing/evaluating new materials.
The preparation of complex inorganic/organic core-shell particles and their in situ hydrophobization via an inverse emulsion
technique is described here. Typically, aqueous solutions of precursor salts are dispersed with the help of statistical copolymers
in an organic phase and subsequently polymer-stabilized nanoparticles precipitate at room temperature (e.g., barium- or strontium-based
perovskite nanoparticles). By this technique, core-multiple-shell ZnO–silica–polymer nanoparticles may also be obtained, whereby
the polymer matrix is protected against the photocatalytically active ZnO by the silica shell. The particles are characterized
by X-ray, transmission electron microscopy, and dynamic light scattering. In this approach, amphiphilic statistical copolymers
act not only as stabilizers for inverse emulsions, but they also hydrophobize the remaining complex inorganic particles shelled
on the surface after the precipitation. The preparation of hybrid nanoparticles is performed by a one-pot procedure, which
makes this process attractive for industrial applications. 相似文献
We study interlacing properties of the zeros of two types of linear combinations of Laguerre polynomials with different parameters, namely and . Proofs and numerical counterexamples are given in situations where the zeros of Rn, and Sn, respectively, interlace (or do not in general) with the zeros of , , k=n or n−1. The results we prove hold for continuous, as well as integral, shifts of the parameter α. 相似文献
The current approach to equine anti-doping is focused on the targeted detection of prohibited substances. However, as new substances are rapidly being developed, the need for complimentary methods for monitoring is crucial to ensure the integrity of the racing industry is upheld. Lipidomics is a growing field involved in the characterisation of lipids, their function and metabolism in a biological system. Different lipids have various biological effects throughout the equine system including platelet aggregation and inflammation. A certain class of lipids that are being reviewed are the eicosanoids (inflammatory markers). The use of eicosanoids as a complementary method for monitoring has become increasingly popular with various studies completed to highlight their potential. Studies including various corticosteroids, non-steroidal anti-inflammatories and cannabidiol have been reviewed to highlight the progress lipidomics has had in contributing to the equine anti-doping industry. This review has explored the techniques used to prepare and analyse samples for lipidomic investigations in addition to the statistical analysis and potential for lipidomics to be used for a longitudinal assessment in the equine anti-doping industry. 相似文献