A room temperature study of the high-pressure phases of crystalline Te was carried out by combining Raman spectroscopy and density functional theory (DFT)-based calculations. The pressure dependence of the experimental phonon spectrum reveals the occurrence of phase transitions, confirming the high-pressure scenario recently proposed by Hejny and McMahon. The effects of the incommensurate lattice modulation on the vibrational properties of Te are discussed. DFT-based calculations are consistent with the present and previous experimental data and show that the metallization process at 4 GPa is due to charge-bridges between atoms belonging to adjacent chains. A first-principles study of the stability of the 4 GPa phase is here reported and di...
Silicon telluride (Si2Te3) is a two-dimensional semiconductor with unique structural properties due ...
The structural, vibrational and electronic properties of alpha-As2Te3 in different pressure environm...
The thermodynamic stability as a function of pressure and temperature of three WTe2 polytypes, i. e....
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
International audiencePressure induced phase transitions in GeTe, a prototype phase change material ...
We study the energetics of seven crystalline phases of tellurium (trigonal, rhombohedral, orthorhomb...
The effect of pressure on the Raman modes in TeO2 (paratellurite) has been investigated to 30GPa, us...
The phonon dispersion and the electron-phonon interaction for the beta-Po and the bcc high pressure ...
The phonon dispersion and the electron-phonon interaction for the beta-Po and the bcc high pressure ...
The phonon dispersion and the electron-phonon interaction for the β-Po and the bcc high pressure pha...
The phonon dispersion and the electron-phonon interaction for the β-Po and the bcc high pressure pha...
Silicon telluride (Si2Te3) is a two-dimensional semiconductor with unique structural properties due ...
Silicon telluride (Si2Te3) is a two-dimensional semiconductor with unique structural properties due ...
The structural, vibrational and electronic properties of alpha-As2Te3 in different pressure environm...
The thermodynamic stability as a function of pressure and temperature of three WTe2 polytypes, i. e....
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
A room temperature study of the high-pressure phases of crystalline Te was carried out by combining ...
International audiencePressure induced phase transitions in GeTe, a prototype phase change material ...
We study the energetics of seven crystalline phases of tellurium (trigonal, rhombohedral, orthorhomb...
The effect of pressure on the Raman modes in TeO2 (paratellurite) has been investigated to 30GPa, us...
The phonon dispersion and the electron-phonon interaction for the beta-Po and the bcc high pressure ...
The phonon dispersion and the electron-phonon interaction for the beta-Po and the bcc high pressure ...
The phonon dispersion and the electron-phonon interaction for the β-Po and the bcc high pressure pha...
The phonon dispersion and the electron-phonon interaction for the β-Po and the bcc high pressure pha...
Silicon telluride (Si2Te3) is a two-dimensional semiconductor with unique structural properties due ...
Silicon telluride (Si2Te3) is a two-dimensional semiconductor with unique structural properties due ...
The structural, vibrational and electronic properties of alpha-As2Te3 in different pressure environm...
The thermodynamic stability as a function of pressure and temperature of three WTe2 polytypes, i. e....