Publications by authors named "Daniel A Mayoh"
Article Synopsis
- * A photoemission and density-functional theory study was conducted on three compounds to explore how different intercalant elements affect their electronic structures at both the bulk and surface levels.
- * Findings reveal that as the atomic number of the intercalant increases, there’s greater hybridization with NbS-derived conduction states, resulting in the formation of new electronic states at the Fermi level, which explains previously observed anomalous states and sheds light on tuning magnetic interactions.
Topological charge plays a significant role in a range of physical systems. In particular, observations of real-space topological objects in magnetic materials have been largely limited to skyrmions - states with a unitary topological charge. Recently, more exotic states with varying topology, such as antiskyrmions, merons, or bimerons and 3D states such as skyrmion strings, chiral bobbers, and hopfions, have been experimentally reported.
View Article and Find Full Text PDFCorrection for 'Heparin-stabilised iron oxide for MR applications: a relaxometric study' by Lucy Ternent et al., J. Mater.
View Article and Find Full Text PDFSuperparamagnetic nanoparticles have strong potential in biomedicine and have seen application as clinical magnetic resonance imaging (MRI) contrast agents, though their popularity has plummeted in recent years, due to low efficacy and safety concerns, including haemagglutination. Using an in situ procedure, we have prepared colloids of magnetite nanoparticles, exploiting the clinically approved anti-coagulant, heparin, as a templating stabiliser. These colloids, stable over several days, produce exceptionally strong MRI contrast capabilities particularly at low fields, as demonstrated by relaxometric investigations using nuclear magnetic resonance dispersion (NMRD) techniques and single field r and r relaxation measurements.
View Article and Find Full Text PDF