Your search keyword '"Liu, Zhenxian"' showing total 303 results

301. Pressure-induced metallization of silane.

Author

Chen XJ, Struzhkin VV, Song Y, Goncharov AF, Ahart M, Liu Z, Mao HK, and Hemley RJ

Subjects

Atmospheric Pressure, Hydrogen chemistry, Metals, Nitrogen chemistry, Pressure, Rhenium chemistry, Spectrophotometry methods, Spectrophotometry, Infrared methods, Spectrum Analysis, Raman methods, Temperature, Chemistry methods, Silanes chemistry, Silicon chemistry

Abstract

There is a great interest in electronic transitions in hydrogen-rich materials under extreme conditions. It has been recently suggested that the group IVa hydrides such as methane (CH(4)), silane (SiH(4)), and germane (GeH(4)) become metallic at far lower pressures than pure hydrogen at equivalent densities because the hydrogen is chemically compressed in group IVa hydride compounds. Here we report measurements of Raman and infrared spectra of silane under pressure. We find that SiH(4) undergoes three phase transitions before becoming opaque at 27-30 GPa. The vibrational spectra indicate the material transforms to a polymeric (framework) structure in this higher pressure range. Room-temperature infrared reflectivity data reveal that the material exhibits Drude-like metallic behavior above 60 GPa, indicating the onset of pressure-induced metallization.

Published

2008

302. High-pressure vibrational spectroscopy of energetic materials: hexahydro-1,3,5-trinitro-1,3,5-triazine.

Author

Ciezak JA, Jenkins TA, Liu Z, and Hemley RJ

Abstract

Vibrational spectroscopy has been used to investigate the room-temperature high-pressure phases of the energetic material hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX). The pressure-induced alterations in the spectral profiles were studied in a compression sequence to 30.2 GPa using Raman spectroscopy and to 26.6 GPa using far-infrared spectroscopy. At pressures near 4.0 GPa, several changes become immediately apparent in the Raman spectrum, such as large frequency shifts, mode splittings, and intensity changes, which are associated with a phase transition from alpha-RDX to gamma-RDX. Our study extends the kinetic stability of gamma-RDX to pressures near 18.0 GPa. Evidence for a new phase was found at pressures between 17.8 and 18.8 GPa and is based on the appearance of new vibrational bands and associated changes in intensity patterns. The new phase has vibrational characteristics that are similar to those of beta-RDX, suggesting the two polymorphs share a related crystal structure.

Published

2007

303. Doming modes and dynamics of model heme compounds.

Author

Klug DD, Zgierski MZ, Tse JS, Liu Z, Kincaid JR, Czarnecki K, and Hemley RJ

Subjects

Animals, Biophysical Phenomena, Biophysics, Iron metabolism, Models, Biological, Models, Molecular, Myoglobin metabolism, Oxygen metabolism, Pressure, Spectrophotometry, Infrared, Temperature, Heme chemistry, Porphyrins chemistry

Abstract

Synchrotron far-IR spectroscopy and density-functional calculations are used to characterize the low-frequency dynamics of model heme FeCO compounds. The "doming" vibrational mode in which the iron atom moves out of the porphyrin plane while the periphery of this ring moves in the opposite direction determines the reactivity of oxygen with this type of molecule in biological systems. Calculations of frequencies and absorption intensities and the measured pressure dependence of vibrational modes in the model compounds are used to identify the doming and related normal modes.

Published

2002