January 18, 2017 03:37 PM

Extreme magnetoresistance (XMR) has been recently observed in a growing number of topological semimetals. Recent studies on (W/Mo)Te2 and (Zr/Hf)Te5 suggest that pressure suppresses the XMR and gives rise to superconductivity. To search for a relation between XMR and superconductivity, a research team used HPCAT facility to study the effect of pressure on LaBi.  More....

January 4, 2017 04:43 PM

Spin cross over may be induced by external stimuli such as light, heat, pressure, and magnetic fields, and provides an electronic origin responsible for corporative structural, electrical, magnetic, and/or optical alterations, with wide applications such as in memory, display, and sensor technologies. Based on recent experiments at HPCAT, together with electronic transport data, a research group observed a pressure-driven spin-cross-overs in the 2D honeycomb antiferromagnetic materials MnPS3 and MnPSe3 at room temperature.  More....

December 5, 2016 04:05 PM

Strong parallels exist between the packing of tetrahedra and network topologies found in H2O and SiO2 phases. For examples, tridymite and cristobalite are analogues of ice Ih and Ic, respectively; low-energy hypothetical ice analogues of quartz have been predicted theoretically. By loading binary H2 + H2O samples in diamond anvil cells, a team used HPCAT facility and discovered a unique hydrogen-filled, ice-based chiral structure with oxygen topology very similar to the mineral quartz and other, as-of-yet-hypothetical, three-dimensional nets.  More...

December 2, 2016 12:43 PM

Thermoelectric materials have a wide range of applications, such as commercial refrigeration, energy-efficient engines, etc.  Their effectiveness has certain limitations, however, expressed by a dimensionless figure of merit, ZT = (α2σ/κ)T, where α is the Seebeck coefficient, σ the electrical conductivity, κ the thermal conductivity, and T the temperature. To obtain insight into the effects of structure and phase variation on the figure of merit, a technique for in-situ high-pressure thermoelectricity measurement has been developed at the HPCAT by utilizing a Paris-Edinburgh press.  More....

December 2, 2016 12:59 PM

Among thousands of known chemical interactions between common elements in the periodic table, there remain bonds that are curiously absent. Iron-bismuth is such a system, exhibiting complete immiscibility even in the liquid state. Using laser-heated diamond anvil cells, recent experiments at HPCAT have revealed a new form of intermetallic FeBi2More...