Molecules with all triple bonds: OCBBCO, N2BBN2, and [OBBBBO]2-

Lucas C. Ducati; Nozomi Takagi; Gernot Frenking

doi:10.1021/jp902780t

Molecules with all triple bonds: OCBBCO, N₂BBN₂, and [OBBBBO]^2-

Lucas C. Ducati, Nozomi Takagi, Gernot Frenking

University of Marburg

Research output: Contribution to journal › Article › peer-review

64 Scopus citations

Abstract

DFT calculations at the BP86/TZ2P level have been carried out for the compounds OCBBCO, N₂BBN₂, and [OBBBBO]^2-. The calculations predict very short distances and large bond dissociation energies for the central B-B bonds. The nature of the bonding situation was investigated with an energy decomposition analysis. It shows that the central boron-boron bonds are genuine triple bonds. The π-bonding contributes between 38-40% to the total orbital interactions of the B≡B bonds. The compounds can be considered as donor-acceptor complexes L→BB←L between the central B₂ moiety in the third [(3)¹Σ_g ⁺] excited state and the ligands L = CO, N₂, BO ^-. The π-backdonation L→BB←L for L = CO, N₂ is very strong, which suggests that the latter bonds should also be considered as triple bonds. The π-bonding in [OB-BB-BO]^2- is weaker, which makes the latter bonds borderline cases for triple bonds. The triple-bond character explains the very large bond dissociation energies for the LB-BL and L-BB-L bonds.

Original language	English
Pages (from-to)	11693-11698
Number of pages	6
Journal	Journal of Physical Chemistry A
Volume	113
Issue number	43
DOIs	https://doi.org/10.1021/jp902780t
State	Published - 29 Oct 2009
Externally published	Yes

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title = "Molecules with all triple bonds: OCBBCO, N2BBN2, and [OBBBBO]2-",

abstract = "DFT calculations at the BP86/TZ2P level have been carried out for the compounds OCBBCO, N2BBN2, and [OBBBBO]2-. The calculations predict very short distances and large bond dissociation energies for the central B-B bonds. The nature of the bonding situation was investigated with an energy decomposition analysis. It shows that the central boron-boron bonds are genuine triple bonds. The π-bonding contributes between 38-40% to the total orbital interactions of the B≡B bonds. The compounds can be considered as donor-acceptor complexes L→BB←L between the central B2 moiety in the third [(3)1Σg +] excited state and the ligands L = CO, N2, BO -. The π-backdonation L→BB←L for L = CO, N2 is very strong, which suggests that the latter bonds should also be considered as triple bonds. The π-bonding in [OB-BB-BO]2- is weaker, which makes the latter bonds borderline cases for triple bonds. The triple-bond character explains the very large bond dissociation energies for the LB-BL and L-BB-L bonds.",

author = "Ducati, {Lucas C.} and Nozomi Takagi and Gernot Frenking",

year = "2009",

month = oct,

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doi = "10.1021/jp902780t",

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T1 - Molecules with all triple bonds

T2 - OCBBCO, N2BBN2, and [OBBBBO]2-

AU - Ducati, Lucas C.

AU - Takagi, Nozomi

AU - Frenking, Gernot

PY - 2009/10/29

Y1 - 2009/10/29

N2 - DFT calculations at the BP86/TZ2P level have been carried out for the compounds OCBBCO, N2BBN2, and [OBBBBO]2-. The calculations predict very short distances and large bond dissociation energies for the central B-B bonds. The nature of the bonding situation was investigated with an energy decomposition analysis. It shows that the central boron-boron bonds are genuine triple bonds. The π-bonding contributes between 38-40% to the total orbital interactions of the B≡B bonds. The compounds can be considered as donor-acceptor complexes L→BB←L between the central B2 moiety in the third [(3)1Σg +] excited state and the ligands L = CO, N2, BO -. The π-backdonation L→BB←L for L = CO, N2 is very strong, which suggests that the latter bonds should also be considered as triple bonds. The π-bonding in [OB-BB-BO]2- is weaker, which makes the latter bonds borderline cases for triple bonds. The triple-bond character explains the very large bond dissociation energies for the LB-BL and L-BB-L bonds.

AB - DFT calculations at the BP86/TZ2P level have been carried out for the compounds OCBBCO, N2BBN2, and [OBBBBO]2-. The calculations predict very short distances and large bond dissociation energies for the central B-B bonds. The nature of the bonding situation was investigated with an energy decomposition analysis. It shows that the central boron-boron bonds are genuine triple bonds. The π-bonding contributes between 38-40% to the total orbital interactions of the B≡B bonds. The compounds can be considered as donor-acceptor complexes L→BB←L between the central B2 moiety in the third [(3)1Σg +] excited state and the ligands L = CO, N2, BO -. The π-backdonation L→BB←L for L = CO, N2 is very strong, which suggests that the latter bonds should also be considered as triple bonds. The π-bonding in [OB-BB-BO]2- is weaker, which makes the latter bonds borderline cases for triple bonds. The triple-bond character explains the very large bond dissociation energies for the LB-BL and L-BB-L bonds.

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JO - Journal of Physical Chemistry A

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ER -

Molecules with all triple bonds: OCBBCO, N₂BBN₂, and [OBBBBO]^2-

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