Effects of high pressure on the electrical resistivity and dielectric properties of nanocrystalline SnO .

The electrical transport and structural properties of tin oxide nanoparticles under compression have been studied by in situ impedance measurements and synchrotron X-ray diffraction (XRD) up to 27.9 GPa. It was found that the conduction of SnO can be improved significantly with compression.

Associated Lattice and Electronic Structural Evolutions in Compressed Multilayer ReS.

The transition metal dichalcogenide (TMD) ReS is a promising material for optoelectronic devices because of its remarkable quantum yield. Pressure can effectively tune the optoelectronic properties of TMDs through control of the atomic displacement. Here, we systematically investigated the lattice and electronic structural evolutions of compressed multilayer ReS.

High-pressure dielectric behavior of BaMoO: a combined experimental and theoretical study.

In situ impedance measurements were employed to investigate the electrical transport properties of BaMoO under pressures of up to 20.0 GPa. Two anomalous changes in the electrical parameters were found, related to the pressure-induced structural phase transitions.