SmB<sub>6</sub><sup>–</sup> Cluster Anion: Covalency Involving f Orbitals

Robinson, Paul; Zhang, Xinxing; McQueen, Tyrel M.; Bowen, Kit H.; Alexandrova, Anastassia N.

doi:10.1021/acs.jpca.7b00247

Cited by 44 publications

(52 citation statements)

References 32 publications

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“…They all have the same cubic structures, but dramatically varying properties. [19][20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37] For example, EuB 6 and SmB 6 both have an anomalous peak in the specific heat, while for LaB 6 no such peak exists. T and p-sensitive magnetization, resistivity, and electronic phase transitions have been seen also in EuB 6 , GdB 6 , PrB 6 , and YbB 6 .…”

Section: Other Rare-earth Hexaborides and Dodecaboridesmentioning

confidence: 99%

Dynamical Bonding Driving Mixed Valency in a Metal Boride

et al. 2020

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Samarium hexaboride is an anomaly, having many exotic and seemingly mutually incompatible properties. It was proposed to be a mixed-valent semiconductor, and later a topological Kondo insulator, and yet has a Fermi surface despite being an insulator. We propose a new and unified understanding of SmB 6 centered on the hitherto unrecognized dynamical bonding effect: the coexistence of two Sm-B bonding modes within SmB 6 , corresponding to different oxidation states of the Sm. The mixed valency arises in SmB 6 from thermal population of these distinct minima enabled by motion of B. Our model simultaneously explains the thermal valence fluctuations, appearance of magnetic Fermi surface, excess entropy at low temperatures, pressure-induced phase transitions, and related features in Raman spectra and their unexpected dependence on temperature and boron isotope. arXiv:1903.10650v2 [cond-mat.str-el]

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Section: Other Rare-earth Hexaborides and Dodecaboridesmentioning

confidence: 99%

Dynamical Bonding Driving Mixed Valency in a Metal Boride

et al. 2020

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“…In addition, 4f -covalency with O 2p orbitals is also predicted (hatched red and gray), an effect previously reported by Bowen and co-workers in studies on SmB 6 − /SmB 6 . 86 These relative occupied orbital energies are evocative of the bulk band structure of Sm 2 O 3 , in which the 4f band is energetically embedded at the top of the VB. 87,88 Calculations on the lowest energy structure found for SmCe 2 O 4 − [ Fig.…”

Section: A Sm X Ce 3−x O Ymentioning

confidence: 99%

Exotic electronic structures of SmxCe3−xOy (x = 0-3; y = 2-4) clusters and the effect of high neutral density of low-lying states on photodetachment transition intensities

Topolski

Kafader

Marrero-Colon

et al. 2018

The Journal of Chemical Physics

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Lanthanide (Ln) oxide clusters have complex electronic structures arising from the partially occupied Ln 4f subshell. New anion photoelectron (PE) spectra of SmCeO (x = 0-3; y = 2-4) along with supporting results of density functional theory (DFT) calculations suggest interesting x and y-dependent Sm 4f subshell occupancy with implications for Sm-doped ionic conductivity of ceria, as well as the overall electronic structure of the heterometallic oxides. Specifically, the Sm centers in the heterometallic species have higher 4f subshell occupancy than the homonuclear SmO/SmO clusters. The higher 4f subshell occupancy both weakens Sm-O bonds and destabilizes the 4f subshell relative to the predominantly O 2p bonding orbitals in the clusters. Parallels between the electronic structures of these small cluster systems with bulk oxides are explored. In addition, unusual changes in the excited state transition intensities, similar to those observed previously in the PE spectra of SmO and SmO [J. O. Kafader et al., J. Chem. Phys. 146, 194310 (2017)], are also observed in the relative intensities of electronic transitions to excited neutral state bands in the PE spectra of SmCeO (x = 1-3; y = 2, 4). The new spectra suggest that the effect is enhanced with lower oxidation states and with an increasing number of Sm atoms, implying that the prevalence of electrons in the diffuse Sm 6s-based molecular orbitals and a more populated 4f subshell both contribute to this phenomenon. Finally, this work identifies challenges associated with affordable DFT calculations in treating the complex electronic structures exhibited by these systems, including the need for a more explicit treatment of strong coupling between the neutral and PE.

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“…Lanthanide boron clusters are rarely studied before . The PrB 7 − cluster was the first observed lanthanide boron‐complex that was investigated by TGMin program .…”

Section: Methodsmentioning

confidence: 99%

TGMin: An efficient global minimum searching program for free and surface‐supported clusters

et al. 2018

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In this article, we introduce an efficient global-minimum structural search program named Tsinghua Global Minimum 2 (TGMin-2), which is the successor of the original TGMin algorithm that was developed in our group in 2011. We have introduced a number of new features and improvements into TGMin-2, including a symmetric structure generation algorithm that can produce good initial seeds for small-and medium-size clusters, the duplicated structure identification algorithm, and the improved structure adaption algorithm that was implemented in the original TGMin code. To predict the simulated photoelectron spectrum (PE spectrum) automatically, we also implemented a standalone program named AutoPES (Auto Photoelectron Spectroscopy), which can be used to simulate PE spectra and compare them with experimental results automatically. We have demonstrated that TGMin-2 and AutoPES are powerful tools for studying free and surface-supported molecules, clusters, and nanoclusters.

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SmB₆^– Cluster Anion: Covalency Involving f Orbitals

Cited by 44 publications

References 32 publications

Dynamical Bonding Driving Mixed Valency in a Metal Boride

Dynamical Bonding Driving Mixed Valency in a Metal Boride

Exotic electronic structures of SmxCe3−xOy (x = 0-3; y = 2-4) clusters and the effect of high neutral density of low-lying states on photodetachment transition intensities

TGMin: An efficient global minimum searching program for free and surface‐supported clusters

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SmB6– Cluster Anion: Covalency Involving f Orbitals

Cited by 44 publications

References 32 publications

Dynamical Bonding Driving Mixed Valency in a Metal Boride

Dynamical Bonding Driving Mixed Valency in a Metal Boride

Exotic electronic structures of SmxCe3−xOy (x = 0-3; y = 2-4) clusters and the effect of high neutral density of low-lying states on photodetachment transition intensities

TGMin: An efficient global minimum searching program for free and surface‐supported clusters

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SmB₆^– Cluster Anion: Covalency Involving f Orbitals