2 research outputs found
Dumbbells of Five-Connected Ge Atoms and Superconductivity in CaGe<sub>3</sub>
CaGe<sub>3</sub> has been synthesized at high-pressure,
high-temperature
conditions. The atomic pattern comprises intricate germanium layers
of condensed moleculelike dimers. Below <i>T</i><sub>c</sub> = 6.8 K, type II superconductivity with moderately strong electron–phonon
coupling is observed
Dumbbells of Five-Connected Silicon Atoms and Superconductivity in the Binary Silicides MSi<sub>3</sub> (M = Ca, Y, Lu)
The new metastable binary silicides MSi<sub>3</sub> (M
= Ca, Y,
Lu) have been synthesized by high-pressure, high-temperature reactions
at pressures between 12(2) and 15(2) GPa and temperatures from 900(100)
to 1400(150) K. The atomic patterns comprise intricate silicon layers
of condensed molecule-like Si<sub>2</sub> dimers. The alkaline-earth
element adopts the oxidation state +2, while the rare-earth and transition
metals realize +3. All of the compounds exhibit BCS-type superconductivity
with weak electron–phonon coupling below critical temperatures
of up to 7 K