The present disclosure relates generally to a composition comprising at least one of iridium diboride and iridium monoboride, and methods of making such. The present disclosure also relates to a composition comprising iridium monoboride and at least one of (a) rows of single iridium atoms and/or (b) one or more clusters of iridium atoms, and methods of making such.

The present disclosure relates generally to a composition comprising at least one of iridium diboride and iridium monoboride, and methods of making such. The present disclosure also relates to a composition comprising iridium monoboride and at least one of (a) rows of single iridium atoms and/or (b) one or more clusters of iridium atoms, and methods of making such.

An object of the invention is to provide: an MgB.sub.2 superconducting thin-film wire that exhibits excellent J.sub.c characteristics even under a 20 K magnetic field; and a method for producing thereof. The MgB.sub.2 superconducting thin-film wire includes a long substrate and an MgB.sub.2 thin film formed on the long substrate. The MgB.sub.2 thin film has a microtexture such that MgB.sub.2 columnar crystal grains stand densely together on the surface of the long substrate, and has T.sub.c of 30 K or higher. In grain boundary regions of the MgB.sub.2 columnar crystal grains, a predetermined transition metal element is dispersed and segregated. The predetermined transition metal element is an element having a body-centered cubic lattice structure.

An object of the invention is to provide: an MgB.sub.2 superconducting thin-film wire that exhibits excellent J.sub.c characteristics even under a 20 K magnetic field; and a method for producing thereof. The MgB.sub.2 superconducting thin-film wire includes a long substrate and an MgB.sub.2 thin film formed on the long substrate. The MgB.sub.2 thin film has a microtexture such that MgB.sub.2 columnar crystal grains stand densely together on the surface of the long substrate, and has T.sub.c of 30 K or higher. In grain boundary regions of the MgB.sub.2 columnar crystal grains, a predetermined transition metal element is dispersed and segregated. The predetermined transition metal element is an element having a body-centered cubic lattice structure.

A method to recycle TiB2 articles, and in particular, a method to recycle a TiB2 feedstock including TiB2 articles and Ti-ore and/or Ti-slag by chlorination.

A method to recycle TiB2 articles, and in particular, a method to recycle a TiB2 feedstock including TiB2 articles and Ti-ore and/or Ti-slag by chlorination.

Disclosed herein are compounds, methods, and tools which comprise tungsten borides and mixed transition metal borides.

Disclosed herein are compounds, methods, and tools which comprise tungsten borides and mixed transition metal borides.

There is provided new transparent near infrared absorptive fine particles having a wide range of near infrared absorption, which are an assembly of hexaboride fine particles, wherein when a particle shape of the number of particles contained in the assembly is approximately regarded as a spheroid body, there are 20% or more and less than 80% of particles having an aspect ratio [(long axis length)/(short axis length)] of 1.5 or more and less than 5.0, and there are 20% or more and less than 80% of particles having an aspect ratio of 5.0 or more and less than 20.0.

Provided are a method for manufacturing MgB.sub.2 superconductor by pressure molding a mixture of Mg powder or MgH.sub.2 powder and B powder and heat-treating the mixture, the method including (I) a step of adding a polycyclic aromatic hydrocarbon to the B powder, while heating the mixture to a temperature higher to or equal to the melting point of the polycyclic aromatic hydrocarbon at the time of this addition, and thereby covering the surface of the B powder with the polycyclic aromatic hydrocarbon; and (II) a step of mixing the B powder having the surface covered with the polycyclic aromatic hydrocarbon, with the Mg powder or the MgH.sub.2 powder, or a step of combining the B powder having the surface covered with the polycyclic aromatic hydrocarbon, with an Mg rod; and an MgB.sub.2 superconducting wire which has high critical current density (Jc) characteristics and less fluctuation in the critical current density (Jc).