Interlayer Ions Control Spin Canting in Low-Dimensional Manganese Trimers in 12R-Ba4Mmn3O12 (M = Ce, Pr) Layered Perovskites

Corlyn Regier, Shaun O'Donnell, Anuj Goyal, Michael Dzara, James Park, Robert Bell, Morgan Kramer, Joseph Paddison, Sarah Shulda, David Ginley, Danielle Yahne, Stephan Lany, Rebecca Smaha, Ryan Klein

Research output: Contribution to journalArticlepeer-review

Abstract

To synthetically target a specific material with select performance, the underlying relationship between structure and function must be understood. For targeting magnetic properties, such understanding is underdeveloped for a relatively new class of layered hexagonal perovskites, the 12R-Ba4MMn3O12 family. Here, we perform a detailed magnetostructural study of the layered hexagonal perovskite materials 12R-Ba4MMn3O12, where M = diamagnetic Ce4+ or paramagnetic Jeff ~ 1/2 Pr4+. The material with M = Ce4+ is an antiferromagnet below TN ~ 7.75 K, while the material with M = Pr4+ exhibits more complex behavior, with a net moment below 200 K and a sharp peak in the susceptibility at TN ~ 12.15 K. Guided by the susceptibility data, we conduct variable-temperature powder neutron diffraction measurements to determine the magnetic structure of these two materials. The introduction of a magnetic interlayer cation cants the spins in the Mn3O12 trimers out of plane. We further characterize the crystal and electronic structures in these compounds using powder X-ray diffraction and X-ray absorption spectroscopy measurements coupled with first-principles theoretical calculations. The resulting detailed picture of the magnetic, crystal, and electronic structure will be useful for understanding the magnetism in similar 12R hexagonal perovskites and related materials.
Original languageAmerican English
Pages (from-to)24176-24186
Number of pages11
JournalInorganic Chemistry
Volume63
Issue number51
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5K00-91262

Keywords

  • antiferromagnet
  • neutron scattering
  • perovskite
  • quantum material

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