Hunting dimers

Rogachev, Andrey Yu.; Jerabek, Paul; Klein, Susanne; Frenking, Gernot; Hoffmann, Roald

doi:10.1007/s00214-012-1149-3

Cited by 6 publications

(4 citation statements)

References 37 publications

(38 reference statements)

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“…The process is shown schematically in Figure 6b, which depicts an initial carbone HB→C←BH reference structure, whose carbon σ lone pair is subsequently donated into the empty in‐plane p AOs of boron. An alternative view is provided by a cyclic C(BH) 2 reference structure with an “inverted” carbene54 configuration that donates charge into the vacant carbon σ lone‐pair orbital (Figure 6c) 55. Both perspectives come to the same conclusion: the HOMO−1 in bent C(BH) 2 enhances carbon–boron bonding, it yields partial boron–boron bonding, and it has some (reduced) σ lone‐pair character.…”

Section: Resultsmentioning

confidence: 99%

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Barua

Allen

Kraka

et al. 2013

Chemistry A European J

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The ground electronic state of C(BH)2 exhibits both a linear minimum and a peculiar angle-deformation isomer with a central B-C-B angle near 90°. Definitive computations on these species and the intervening transition state have been executed by means of coupled-cluster theory including single and double excitations (CCSD), perturbative triples (CCSD(T)), and full triples with perturbative quadruples (CCSDT(Q)), in concert with series of correlation-consistent basis sets (cc-pVXZ, X=D, T, Q, 5, 6; cc-pCVXZ, X=T, Q). Final energies were pinpointed by focal-point analyses (FPA) targeting the complete basis-set limit of CCSDT(Q) theory with auxiliary core correlation, relativistic, and non-Born-Oppenheimer corrections. Isomerization of the linear species to the bent form has a minuscule FPA reaction energy of 0.02 kcal mol(-1) and a corresponding barrier of only 1.89 kcal mol(-1). Quantum tunneling computations reveal interconversion of the two isomers on a timescale much less than 1 s even at 0 K. Highly accurate CCSD(T)/cc-pVTZ and composite c~CCSDT(Q)/cc-pCVQZ anharmonic vibrational frequencies confirm matrix-isolation infrared bands previously assigned to linear C(BH)2 and provide excellent predictions for the heretofore unobserved bent isomer. Chemical bonding in the C(BH)2 species was exhaustively investigated by the atoms-in-molecules (AIM) approach, molecular orbital plots, various population analyses, local mode vibrations and force constants, unified reaction valley analysis (URVA), and other methods. Linear C(BH)2 is a cumulene, whereas bent C(BH)2 is best characterized as a carbene with little carbone character. Weak B-B attraction is clearly present in the unusual bent isomer, but its strength is insufficient to form a CB2 ring with a genuine boron-boron bond and attendant AIM bond path.

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Section: Resultsmentioning

confidence: 99%

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Barua

Allen

Kraka

et al. 2013

Chemistry A European J

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“…To our surprise, in a recent computational study, 04 was predicted to have a perfect D 4h -cage at the BP86/def2-TZVPP level. 7 So, we performed extra optimizations for isomer 04 using eight exchangecorrelation functionals, e.g., BP86, X3LYP, M062X, WB97XD, B3PW91, PBEPBE, PBEPW91 and HSEH1PBE with aug-cc-pVTZ basis set. Table 2 lists the energy difference at the CCSD(T)/augcc-pVTZ + ZPEC level based on various DFT geometries between the global minimum and the hypercloso cage.…”

Section: Resultsmentioning

confidence: 99%

“…Here, through extensive isomeric searching, we report an abnormal example C 2 B 4 H 4 , whose global minimum is a ribbon-like isomer at the CCSD(T) aug-cc-pVTZ//B3LYP/aug-cc-pVTZ level, instead of the octahedrallike hypercloso species that was revealed in a recent theoretical study. 7 The detailed calculation strategy, results and discussions can be found in the following sections.…”

Section: Introductionmentioning

confidence: 99%

Global structure of C₂B₄H₄: hypercloso or not

Zhang

2015

RSC Adv.

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“…In this context, the group of Frenking and Hoffmann reported the theoretical studies on a C 2 B 4 H 4 cluster, and concluded that the favored structure is the hypercloso octahedron I involving two capped carbon atoms (Fig. 1a) 21 . By contrast, Ding and coworkers proposed that the global minima of the C 2 B 4 H 4 cluster is a ribbon-like isomer II, which lies 16.0 kcal mol −1 lower in energy than I 22 .…”

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A flat carborane with multiple aromaticity beyond Wade–Mingos’ rules

2020

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It is widely known that the skeletal structure of clusters reflects the number of skeletal bonding electron pairs involved, which is called the polyhedral skeletal electron pair theory (PSEPT) or Wade and Mingos rules. While recent computational studies propose that the increase of skeletal electrons of polyhedral clusters leads to the flat structure beyond the PSEPT, little experimental evidence has been demonstrated. Herein, we report the synthesis of a C2B4R4 carborane 2 featuring a flat ribbon-like structure. The C2B4 core of 2 bearing 16 skeletal electrons in the singlet-ground state defies both the [4n + 2] Hückel’s rule and Baird’s rule. Nevertheless, the delocalization of those electrons simultaneously induces two independent π- and two independent σ-aromatic ring currents, rendering quadruple aromaticity.

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Hunting dimers

Cited by 6 publications

References 37 publications

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Global structure of C₂B₄H₄: hypercloso or not

A flat carborane with multiple aromaticity beyond Wade–Mingos’ rules

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Hunting dimers

Cited by 6 publications

References 37 publications

Nearly Degenerate Isomers of C(BH)2: Cumulene, Carbene, or Carbone?

Nearly Degenerate Isomers of C(BH)2: Cumulene, Carbene, or Carbone?

Global structure of C2B4H4: hypercloso or not

A flat carborane with multiple aromaticity beyond Wade–Mingos’ rules

Contact Info

Product

Resources

About

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Nearly Degenerate Isomers of C(BH)₂: Cumulene, Carbene, or Carbone?

Global structure of C₂B₄H₄: hypercloso or not