Isostructural CeCN5 and TbCN5 show Ce in 4+ and Tb in 3+ oxidation states, producing insulating versus metallic behavior because the polymeric C-N network distributes the extra electron from Ce.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
citation-role summary
background 1
citation-polarity summary
roles
background 1polarities
support 1representative citing papers
First-principles calculation shows selective excitation of an IR phonon mode in La3Ni2O7 produces a small nonlinear shift that moves the Ni-O-Ni bond angle closer to 180 degrees.
Theoretical calculations for S/F/S Josephson junctions with GdIr2Si2 thin films predict an anomalous phase shift of order unity and a magnetization-tunable Josephson diode effect with efficiency up to 0.3.
citing papers explorer
-
Electronic structure and oxidation states in high-pressure synthesized isostructural CeCN$_5$ and TbCN$_5$
Isostructural CeCN5 and TbCN5 show Ce in 4+ and Tb in 3+ oxidation states, producing insulating versus metallic behavior because the polymeric C-N network distributes the extra electron from Ce.
-
Optical control of the crystal structure in the bilayer nickelate superconductor La3Ni2O7 via nonlinear phononics
First-principles calculation shows selective excitation of an IR phonon mode in La3Ni2O7 produces a small nonlinear shift that moves the Ni-O-Ni bond angle closer to 180 degrees.
-
Anomalous phase shift and superconducting diode effect in Josephson junctions via thin films of rare-earth intermetallic magnets
Theoretical calculations for S/F/S Josephson junctions with GdIr2Si2 thin films predict an anomalous phase shift of order unity and a magnetization-tunable Josephson diode effect with efficiency up to 0.3.