Quasi-2D GaN layers inserted in an AlGaN matrix are proposed as a novel active region to develop a high-output-power UV light source. Such a structure is successfully achieved by precise control in molecular beam epitaxy and shows an amazing output power of ≈160 mW at 285 nm with a pulsed electron-beam excitation. This device is promising and competitive in non-line-of-sight communications or the sterilization field.
2010) Phylogenetic relationships of the Chinese Labeoninae (Teleostei, Cypriniformes) derived from two nuclear and three mitochondrial genes. -Zoologica Scripta, 39, 559-571. The majority of genera within the Labeoninae occur in the South of China and the phylogeny of the subfamily Labeoninae has been a controversial topic over the years. The early and more recent phylogenetic results based on morphology are not in agreement, and some of the molecular analyses contradict those based on morphology. However, none of the previous studies has included an extensive sampling of Labeoninae genera. In this study, partial sequences of two nuclear (exon 3 of recombination activating protein 1 and rhodopsin) and three mitochondrial genes (cytochrome b, cytochrome oxidase subunit I and 16S ribosomal RNA) from 39 ingroup taxa and 11 outgroup taxa were used analysed to provide a hypothesis of phylogenetic relationships within the Chinese Labeoninae. The results supported the monophyly of Labeoninae and refuted the subdivision within Labeoninae based on the oromandibular morphology. It also further confirmed that the presence of a disc on lower lip arose through convergent evolution. Labeo was the basal clade and Osteochilus was closely related to Cirrhinus, forming the second basal clade. The monophyly of Garra and Bangana was refuted in this study, and they were both subdivided into two lineages. One lineage of Garra had closer relationships with Crossocheilus and Akrokolioplax, and the other lineage had closer relationships with Placocheilus. One lineage of Bangana represented the species with broadly interrupted postlabial groove; these species represented the true Bangana. The other lineage of Bangana included the species with continuous postlabial groove, and these species should be assigned to a new genus. Discogobio, as currently conceived, was paraphyletic, but it rendered monophyletic with the inclusion of Discocheilus. These results indicated that Discocheilus should be synonymised with Discogobio. Hongshuia and Sinocrossocheilus, respectively, formed independent lineages related to a lineage consisting of Pseudocrossocheilus plus seven other nominal genera. The relationships received weak support, but the repeatability of the clades could form the basis of recognising only the three genera mentioned above.
Increased utilization of suboptimal organs in response to organ shortage has resulted in increased incidence of delayed graft function (DGF) after transplantation. Although presumed increased costs associated with DGF are a deterrent to the utilization of these organs, the financial burden of DGF has not been established. We used the Premier Healthcare Database to conduct a retrospective analysis of healthcare resource utilization and costs in kidney transplant patients (n = 12 097) between 1/1/2014 and 12/31/2018. We compared cost and hospital resource utilization for transplants in high‐volume (n = 8715) vs low‐volume hospitals (n = 3382), DGF (n = 3087) vs non‐DGF (n = 9010), and recipients receiving 1 dialysis (n = 1485) vs multiple dialysis (n = 1602). High‐volume hospitals costs were lower than low‐volume hospitals ($103 946 vs $123 571, P < .0001). DGF was associated with approximately $18 000 (10%) increase in mean costs ($130 492 vs $112 598, P < .0001), 6 additional days of hospitalization (14.7 vs 8.7, P < .0001), and 2 additional ICU days (4.3 vs 2.1, P < .0001). Multiple dialysis sessions were associated with an additional $10 000 compared to those with only 1. In conclusion, DGF is associated with increased costs and length of stay for index kidney transplant hospitalizations and payment schemes taking this into account may reduce clinicians’ reluctance to utilize less‐than‐ideal kidneys.
Azobenzene-bridged chiral salen TiIV catalysts enabled the cooperative bimetallic catalysis of asymmetric sulfoxidation in a light-controllable way through the E/Z photoisomerism of an azobenzene linker.
Zein-based nano/microparticles have been demonstrated to be promising carrier systems for both the food industry and biomedical applications. However, the fabrication of size-controlled zein particles has been a challenging issue. In this study, a modified anti-solvent precipitation method was developed, and the effects of various factors, such as mixing method, solvent/anti-solvent ratio, temperature, zein concentrations and the presence of sodium caseinate (SC) on properties of zein particles were investigated. Evidence is presented that, among the previously mentioned factors, the mixing method, especially mixing rate, could be used as an effective parameter to control the size of zein particles without changing other parameters. Moreover, through fine-tuning the mixing rate together with zein concentration, particles with sizes ranging from nanometers to micrometers and low polydispersity index values could be easily obtained. Based on the size-controlled fabrication method, SC-coated zein nanoparticles could also be obtained in a size-controlled manner by incubation of the coating material with the already-formed zein particles. The resultant nanoparticles showed better performance in both drug loading and controlled release, compared with zein/SC hybrid nanoparticles fabricated by adding aqueous ethanol solution to SC solution. The possible mechanisms of the nanoprecipitation process and self-assembly formation of these nanoparticles are discussed.
Metallomicellar
catalysis has gained increasing attention in recent
years since it made water-incompatible organometallic catalysis highly
efficient in water. However, a convenient approach to combine activity
and recovery of metallomicelles from aqueous systems has remained
challenging to date. Herein, we developed a series of nitrospiropyran-containing
metallomicelles which possessed visible-light-responsivity, to realize
the visible-light-controlled reaction and separation for asymmetric
sulfoxidation in water. A series of nitrospiropyran-containing diblock
chiral salen TiIV copolymers were thus prepared by copolymerizing
photosensitive nitrospiropyran derivative with hydrophobic chiral
salen TiIV monomer via free-radical polymerization. Characterization
results suggested their visible-light-controlled self-assembly behavior
in water due to the negative photochromism of nitrospiropyran block.
The resultant light-responsive metallomicelles induced a micellar
catalysis approach in the dark for asymmetric sulfoxidation in water
using H2O2 as an oxidant, leading to significant
rate acceleration and remarkable high selectivity over a wide range
of aryl alkyl sulfides. When exposed to visible light, they were collapsed
and precipitated from the aqueous system for easy recycling. The visible-light-controlled
reaction-separation approach provided an efficient way to combine
activity and recovery of metallomicelles in aqueous asymmetric catalysis,
which was a benefit for energy-saving and industrial applications.
Novel IL-functionalized amphiphilic Janus chiral salen TiIV catalysts behaved as Pickering interfacial catalysts, dramatically accelerating asymmetric sulfoxidation with aq. H2O2 in water through the formation of stable Pickering emulsions.
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