Mechanisms of CO oxidation on high entropy spinels.

The CO oxidation reaction on (Co,Mg,Mn,Ni,Zn)(Al,Co,Cr,Fe,Mn)O and (Cr,Mn,Fe,Co,Ni)O high entropy spinel oxides was studied for what concerns its mechanism by means of soft X-ray absorption spectroscopy. In the (Cr,Mn,Fe,Co,Ni)O high entropy spinel, CO oxidation starts at 150 °C, and complete conversion to CO is obtained at 300 °C. For the (Co,Mg,Mn,Ni,Zn)(Al,Co,Cr,Fe,Mn)O spinel oxides, in contrast, the reaction starts at 200 °C, and complete conversion needs temperatures of the order of 350 °C.

Phase Stability of High Entropy (Mg,Ni,Co,Cu,Zn)O from Temperature-Resolved Synchrotron Diffraction: Tetragonal Distortion and Guggenite Phase.

The temperature-resolved structure evolution of quinary and quaternary equimolar oxides containing Mg, Ni, Zn, Co, and Cu is investigated by in situ synchrotron diffraction. Important structural modifications occur already at mild temperatures and depend on the elements involved. All quaternary compounds with χ(Cu) = 0.

Multi-institutional quality improvement algorithm for home nasogastric tube care for neonates.

Background: High-risk neonates continuing to need enteral nutrition, but otherwise medically ready for discharge home from the NICU, are often offered ongoing hospitalization for nasogastric tube (NGT) feeding, versus discharge after placement of gastrostomy tube. Our group developed an interdisciplinary algorithm to support a third option-discharge home with enteral nutrition via NGT. Our objective was to develop a cross-institutional and interdisciplinary pathway to optimize outcomes for neonates discharged with NGTs.

The Effectiveness of Slightly Thick Liquids for Improving Swallowing in Bottle-Fed Children With Aerodigestive Concerns.

Purpose: Strategies for facilitating safe and functional bottle feeding in children with dysphagia include selecting nipples that reduce flow rate, pacing, altered positioning, and thickening liquid consistencies. We aimed to determine the impact of slightly thick liquids on swallowing through retrospective review of a convenience sample of clinical videofluoroscopic swallowing studies (VFSS) from 60 bottle-fed children (21 boys and 39 girls, mean age of 9.9 months) referred due to suspected aspiration.

Accurate prediction of the optical properties of nanoalloys with both plasmonic and magnetic elements.

The alloying process plays a pivotal role in the development of advanced multifunctional plasmonic materials within the realm of modern nanotechnology. However, accurate in silico predictions are only available for metal clusters of just a few nanometers, while the support of modelling is required to navigate the broad landscape of components, structures and stoichiometry of plasmonic nanoalloys regardless of their size. Here we report on the accurate calculation and conceptual understanding of the optical properties of metastable alloys of both plasmonic (Au) and magnetic (Co) elements obtained through a tailored laser synthesis procedure.