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Cation Dimerization in a 3d<sup>1</sup> Honeycomb Lattice System

Hajime Yamamoto, Sachiko Kamiyama, Ikuya Yamada, Hiroyuki Kimura

2021Journal of the American Chemical Society19 citationsDOI

Abstract

In one-dimensional systems with partially filled valence bands, simultaneous changes occur in the electronic states and crystal structures. This is known as the Peierls transition. The Peierls transition (cation dimerization) in VO2, which has a quasi-one-dimensional structure, is well-known, and its mechanism has been extensively discussed. Honeycomb lattices exhibit the Peierls instability owing to their low dimensionality. However, cation dimerization is rare in the 3d1 honeycomb lattice system. Here, we perform an in-depth examination of the V–V dimerization (formation of V–V direct bond) in ilmenite-type MgVO3, which is a 3d1 honeycomb lattice system. A ladderlike pattern was observed in the V–V dimers through synchrotron X-ray experiments at temperatures below 500 K. This dimerization was accompanied by a magnetic-to-nonmagnetic transition. Moreover, a valence bond liquid phase may exist at 500–600 K. Our results reveal the behavior of the valence electrons in the 3d1 honeycomb lattice system.

Topics & Concepts

ChemistryLattice (music)Valence (chemistry)CrystallographyCondensed matter physicsValence bond theoryInstabilityChemical physicsElectronCrystal structureIonPhase transitionMolecular physicsMoleculePhysicsMechanicsOrganic chemistryQuantum mechanicsAcousticsMolecular orbitalTransition Metal Oxide NanomaterialsAdvanced Condensed Matter PhysicsCatalysis and Oxidation Reactions
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