Electrochemical oxidation strips Pb from Au2PbP2 to produce the polar noncentrosymmetric superconductor Au2Pb0.914P2 with Tc=1.52 K via Jahn-Teller-driven structural rearrangement.
FitzGerald, Christopher T
3 Pith papers cite this work. Polarity classification is still indexing.
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Crystal-field tensor rank in non-magnetic molecular solids sets selection rules for nuclear-spin conversion of embedded H2, demonstrated via IR spectra showing rank-dependent Delta-m channels in CO2, N2O, and NO2 hosts.
(Ba,K)(Cd,Mn)2As2 shows colossal negative magnetoresistance reaching approximately -100% at 2 K that saturates near 0.35 T.
citing papers explorer
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Stripping Symmetry: Electrochemical Oxidation to a Superconducting Polar Metal in Au2Pb0.914P2
Electrochemical oxidation strips Pb from Au2PbP2 to produce the polar noncentrosymmetric superconductor Au2Pb0.914P2 with Tc=1.52 K via Jahn-Teller-driven structural rearrangement.
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Environment-imposed selection rules for nuclear-spin conversion of H$_2$ in molecular crystals
Crystal-field tensor rank in non-magnetic molecular solids sets selection rules for nuclear-spin conversion of embedded H2, demonstrated via IR spectra showing rank-dependent Delta-m channels in CO2, N2O, and NO2 hosts.
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Colossal low-field negative magnetoresistance in CaAl$_{2}$Si$_{2}$-type diluted magnetic semiconductors (Ba,K)(Cd,Mn)$_{2}$As$_{2}$
(Ba,K)(Cd,Mn)2As2 shows colossal negative magnetoresistance reaching approximately -100% at 2 K that saturates near 0.35 T.