Polymorphism in Ruddlesden-Popper La3Ni2O7: Discovery of a Hidden Phase with Distinctive Layer Stacking

Abstract

We report the discovery of a novel form of Ruddlesden-Popper (RP) oxide, which stands as the first example of long-range, coherent polymorphism in this class of inorganic solids. Rather than the well-known, uniform stacking of perovskite blocks ubiquitously found in RP phases, this newly discovered polymorph of the bilayer RP phase La3Ni2O7adopts a novel stacking sequence in which single and trilayer blocks of NiO6 octahedra alternate in a 1313 sequence. Crystals of this new polymorph are described in space group Cmmm, although we note evidence for a competing Imcm variant. Transport measurements at ambient pressure reveal metallic character with evidence of a charge density wave transition with onset at T = 134 K, which lies intermediate between that of the standard 2222 polymorph of La3Ni2O7 (space group Amam) and the trilayer RP phase, La4Ni3O10. The discovery of such polymorphism could reverberate to the expansive range of science and applications that rely on RP materials, particularly the recently reported signatures of superconductivity with Tc as high as 80 K above 14 GPa in bilayer La3Ni2O7.

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