Orbital-fluctuation freezing and magnetic-nonmagnetic phase transition in <i>α</i>-TiBr3

Pei, Shenghai; Tang, Jiangke; Liu, Cai; Mei, Jia-Wei; Guo, Zenglong; Lyu, Bingbing; Zhang, Naipeng; Huang, Qiaoling; Yu, Dapeng; Huang, Li; Lin, Junhao; Wang, Le; Huang, Mingyuan

doi:10.1063/5.0023175

Cited by 9 publications

(6 citation statements)

References 37 publications

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“…51,52 This may be due to metal dimerization. [53][54][55] Although this is neglected in this paper, it can be based on the hypothesis that the reduction of Ti-Ti bond length leads to an enhanced AFM of direct exchange interactions, making the system AFM or paramagnetic. Recently, some theoretical works predict that TiCl 3 and TiI 3 are ferromagnets with higher Curie temperatures than CrI 3 .…”

Section: Resultsmentioning

confidence: 99%

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

et al. 2022

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Section: Resultsmentioning

confidence: 99%

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

et al. 2022

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“…In this work we performed a detailed spectroscopic and computational analysis of α-MoCl 3 with particular focus on the Mo-Mo bonding. Intertwining of structural and electronic properties necessarily involves phonon degrees of freedom, making vibrational and especially Raman spectroscopy a powerful tool in such an endeavor [18,[27][28][29][30]. Varying the Raman excitation laser wavelengths, we found that Mo-Mo stretching undergoes strong resonant enhancement when excitation matches electronic transitions between σ-bonding and σ * -antibonding orbitals of Mo-Mo dimers.…”

Section: Introductionmentioning

confidence: 89%

“…The delocalization-localization balance in layered transition metal compounds and the propensity for dimerization are very ubiquitous phenomena, which have a dramatic influence on their physical properties [13][14][15]. Formation of dimers with metal-metal bonds in MX 3 group was observed in α-TiCl 3 [16,17], α-TiBr 3 [18,19], β-TcCl 3 [20,21], α-RuCl 3 [22,23], and α-MoCl 3 (figure 1) [24][25][26]. While dimerization in RuCl 3 happens only under increased pressure, other listed halides can support M-M bonds under ambient conditions.…”

Section: Introductionmentioning

confidence: 99%

Metal–metal bonding, electronic excitations, and strong resonance Raman effect in 2D layered α-MoCl₃

Schiemenz,

Froeschke,

Naumann

et al. 2023

2D Mater.

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Covalent bonding between transition metal atoms is a common phenomenon in honeycomb lattices of layered materials, which strongly affects their electronic and magnetic properties. This work presents a detailed spectroscopic study of α-MoCl3, 2D van der Waals material with covalently bonded Mo2 dimers, with a particular focus on the Mo–Mo bonding. Raman spectra of α-MoCl3 were studied with multiple excitation laser lines chosen in different parts of the absorption spectrum, while polarization measurements aided in the symmetry assignment of the observed modes. Furthermore, far-IR measurements and DFT phonon computations were performed to complete vibrational assignment. Polarized absorption, photoluminescence, and photoelectron spectroscopy supported by DFT calculations were employed to understand the consequences of the Mo–Mo bonding for the electronic structure and the localization/delocalization balance in d3–d3 interactions. A coupling of dimerization-related structural and electronic properties was revealed in the strong resonance Raman enhancement of the Mo–Mo stretching mode at 153 cm−1 when the excitation laser matched the electronic transition between σ-bonding and antibonding orbitals of the Mo2 dimer (σ→σ*). The deeper understanding of the metal-metal bonding and identification of the vibrational and electronic spectroscopic signatures of the dimerization will be of great use for the studies of electron delocalization in magnetic van der Waals materials.

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“…Cation dimerization in a honeycomb lattice system has been reported in some halides (α-TiCl 3 , 14,15 α-TiBr 3 , 15,16 β-TcCl 3 , 17 α-MoCl 3 , 18 and α-RuCl 3 ) 19 and some oxides (Li 2 RuO 3 , 20 α-Li 2 IrO 3 , 21 and Cu 2 IrO 3 ). 22 This transition occurred only under high-pressure conditions in α-RuCl 3 , 19 α-Li 2 IrO 3 , 21 and Cu 2 IrO 3 .…”

mentioning

confidence: 94%

Cation Dimerization in a 3d¹ Honeycomb Lattice System

et al. 2021

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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.

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Orbital-fluctuation freezing and magnetic-nonmagnetic phase transition in α-TiBr3

Cited by 9 publications

References 37 publications

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

Metal–metal bonding, electronic excitations, and strong resonance Raman effect in 2D layered α-MoCl₃

Cation Dimerization in a 3d¹ Honeycomb Lattice System

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Orbital-fluctuation freezing and magnetic-nonmagnetic phase transition in α-TiBr3

Cited by 9 publications

References 37 publications

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

Two dimensional Janus Ti-trihalide monolayers with half-metallic characteristics, Mott insulator properties and tunable magnetic anisotropy

Metal–metal bonding, electronic excitations, and strong resonance Raman effect in 2D layered α-MoCl3

Cation Dimerization in a 3d1 Honeycomb Lattice System

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Metal–metal bonding, electronic excitations, and strong resonance Raman effect in 2D layered α-MoCl₃

Cation Dimerization in a 3d¹ Honeycomb Lattice System