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Extensive hydrogen incorporation is not necessary for superconductivity in topotactically reduced nickelates.

Purnima P BalakrishnanDan Ferenc SegedinLin Er ChowPatrick QuartermanShin MuramotoMythili SurendranRanjan K PatelHarrison LaBollitaGrace A PanQi SongYang ZhangIsmail El BaggariKoushik JagadishYu-Tsun ShaoBerit H GoodgeLena F KourkoutisSrimanta MiddeyAntia S BotanaJayakanth RavichandranAriando AriandoJulia A MundyAlexander J Grutter
Published in: Nature communications (2024)
A key open question in the study of layered superconducting nickelate films is the role that hydrogen incorporation into the lattice plays in the appearance of the superconducting state. Due to the challenges of stabilizing highly crystalline square planar nickelate films, films are prepared by the deposition of a more stable parent compound which is then transformed into the target phase via a topotactic reaction with a strongly reducing agent such as CaH 2 . Recent studies, both experimental and theoretical, have introduced the possibility that the incorporation of hydrogen from the reducing agent into the nickelate lattice may be critical for the superconductivity. In this work, we use secondary ion mass spectrometry to examine superconducting La 1-x X x NiO 2 / SrTiO 3 (X = Ca and Sr) and Nd 6 Ni 5 O 12 / NdGaO 3 films, along with non-superconducting NdNiO 2 / SrTiO 3 and (Nd,Sr)NiO 2 / SrTiO 3 . We find no evidence for extensive hydrogen incorporation across a broad range of samples, including both superconducting and non-superconducting films. Theoretical calculations indicate that hydrogen incorporation is broadly energetically unfavorable in these systems, supporting our conclusion that extensive hydrogen incorporation is not generally required to achieve a superconducting state in layered square-planar nickelates.
Keyphrases
  • room temperature
  • mass spectrometry
  • visible light
  • high resolution
  • liquid chromatography
  • molecular dynamics
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  • capillary electrophoresis
  • gas chromatography