13 research outputs found
Magnetic properties of the Bi0.65La0.35Fe0.5Sc0.5O3 perovskite
Magnetic properties of polycrystalline multiferroic Bi0.65La0.35Fe0.5Sc0.5O3 synthesized under high-pressure (6 GPa) and high-temperature (1500 K) conditions were studied using a SQUID magnetometer technique. The temperature dependent static magnetic moment M was measured in both zero-field-cooled and field-cooled modes over the temperature range of 5-300 K in low magnetic field H = 0.02 kOe. The field dependent magnetization M(H) was measured in magnetic fields up to 50 kOe at different temperatures up to 230 K after zero-field cooling procedure. A long-range magnetic ordering of the antiferromagnetic type with a weak ferromagnetic contribution takes place below TN ≈ 220 K. Magnetic hysteresis loops taken below TN show a huge coercive field up to Hc ≈ 10 kOe, while the magnetic moment does not saturate up to 50 kOe. A strong effect of magnetic field on the magnetic properties of the compound has been found. Below TN ≈ 220 K the derivatives of the initial magnetization curves demonstrate the existence of a temperature-dependent anomaly in fields of H = 15÷25 kOe. The nature of the anomaly is unknown and requires additional study.publishe
Capturing variation impact on molecular interactions in the IMEx Consortium mutations data set
The current wealth of genomic variation data identified at nucleotide level presents the challenge of understanding by which mechanisms amino acid variation affects cellular processes. These effects may manifest as distinct phenotypic differences between individuals or result in the development of disease. Physical interactions between molecules are the linking steps underlying most, if not all, cellular processes. Understanding the effects that sequence variation has on a molecule's interactions is a key step towards connecting mechanistic characterization of nonsynonymous variation to phenotype. We present an open access resource created over 14 years by IMEx database curators, featuring 28,000 annotations describing the effect of small sequence changes on physical protein interactions. We describe how this resource was built, the formats in which the data is provided and offer a descriptive analysis of the data set. The data set is publicly available through the IntAct website and is enhanced with every monthly release
Revision of the genus Melamphaes (Melamphaidae). 3: Oligo-raker species: M. proximus sp.n., M. contradictorius sp.n., and M. succedanaus sp. n.
Revision of the genus Melamphaes (Melamphaidae): 6. oligo-raker species: M. papavereus, M. simus, M. hubbsi
Revision of the genus Melamphaes (Melamphaidae): 7. oligo-raker species: M. danae and M. pumilis
Revision of the genus Melamphaes (Melamphaidae). 5. Oligo-raker species: M. indicus, M. eurous, and M. typhlops
Revision of genus Melamphaes (Melamphaidae). I. Multi-Raker species: M. lugubris, M. xestoachidus sp. nova, M. microps, M. manifestus sp. nova
The phenomenon of conversion polymorphism in Bi-containing metastable perovskites
A post-synthesis thermal treatment of metastable phases in the high-pressure stabilised perovskite BiFe1-yScyO3 system results in the irreversible formation of polymorphs which represent novel polar and antipolar structures with interesting magnetic properties. Such annealing-stimulated polymorphism is believed to be a general phenomenon which can be found in other systems.publishe
Publisher Correction: Capturing variation impact on molecular interactions in the IMEx Consortium mutations data set (Nature Communications, (2019), 10, 1, (10), 10.1038/s41467-018-07709-6)
10.1038/s41467-019-08814-wNature Communications101109