Computational Study of van der Waals Complexes between Borylenes and Hydrocarbons

Krasowska, Małgorzata; Bettinger, Holger F.

doi:10.1002/chem.201402611

Cited by 4 publications

(9 citation statements)

References 65 publications

(50 reference statements)

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“…The transition state structures that were found to link the coordinated CF 3 H and BR systems (Figure a) to the insertion product (Figure c) are shown in Figure . They are quite similar to structures identified in refs and for borylene insertion into the CH bonds of methane.…”

Section: Results and Discussionsupporting

confidence: 85%

“…The chemistry of borylenes, including base-stabilized borylenes, has expanded in the past decade to include careful assessments of their potential viability as ligands. ,,, We consider in the next sections the tendencies of borylene species to engage in σ-hole interactions and to form complexes with Lewis acids, specifically monofluoromethane and its Si and Ge analogues.…”

Section: Results and Discussionmentioning

confidence: 99%

“…So, although B–R species are usually generated at high temperatures and tend to be unstable, the literature on monovalent boron continues to grow. , Efforts have been made in recent years to locate free borylenes (B–R), terminal borylenes coordinated to other atomic centers (Q←B–R), and metal–borylene complexes (MB–R)examples of which are already known. , A borylene dicarbonyl complex was reported recently, reaffirming the ability of borylenes to serve as Lewis acids (Q → B–R) and as “metallomimics”, forming coordination complexes with ligands that donate into one or both of the empty p-orbitals of boron in B–R. Borylenes stabilized by donors, including heterocyclic carbenes, have also been identified experimentally in the past few years. , Additionally, borylene insertion into C–H and C–C single bonds and cycloaddition to higher order bonds have been identified experimentally ,,,, and investigated computationally. , In those insertion and addition reactions, the boron center in the BR molecule plays dual roles: as acceptor (electrophile), by its empty p-orbitals, and as σ-donor (nucleophile) by its lone pair.…”

Section: Introductionmentioning

confidence: 97%

“…15,19 Additionally, borylene insertion into C−H and C−C single bonds and cycloaddition to higher order bonds have been identified experimentally 4,10,12,20,21 and investigated computationally. 22,23 In those insertion and addition reactions, the boron center in the BR molecule plays dual roles: as acceptor (electrophile), by its empty p-orbitals, and as σ-donor (nucleophile) by its lone pair.…”

Section: ■ Introductionmentioning

confidence: 99%

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Coordination and Insertion: Competitive Channels for Borylene Reactions

2017

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Monovalent boron, free borylene species of the form B-R are notoriously unstable. Consequently, there are substantial gaps in the literature concerning the potential utility of those species in organic and inorganic synthesis either as ligands or as critical intermediates in reactions. We show that the relative stability of borylene complexes varies widely, depending on the electron donating ability of the R group. We find that borylenes can form, in the gas phase, weak sigma hole type interactions to saturated carbon centers and stronger dative bonds to tetravalent silicon and germanium. An insertion reaction of the form FHM + BR → FHMBHR competes against dative bonding, however, and the reaction is barrierless in several cases when M = Si and in a few cases when M = Ge. For M = C, the barriers are high enough to stabilize monovalent boron complexes. In each case, the barrier heights to M-H bond activation and BR insertion are very sensitive to the nucleophilicity of BR. We confirm, at the MP2(full) and CCSD(T) levels, a substantial preference in borylenes for the singlet over the triplet state. An account is provided at the B3LYP-D3 and MP2(full) levels for the facile insertion reaction on the singlet surface when M = Si and for the stability of FHM·BR type complexes and the higher barriers to insertion when M = C and Ge.

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Section: Results and Discussionsupporting

confidence: 85%

Section: Results and Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Section: ■ Introductionmentioning

confidence: 99%

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Coordination and Insertion: Competitive Channels for Borylene Reactions

2017

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“…The available experimental evidence from trapping studies suggests that borylenes RB are highly reactive transient species. Computational analysis of the reactions with prototypical carbon multiple bonds has revealed that borylenes behave as electrophilic species because of their vacant p orbitals. , The transition states for cycloaddition resemble those of carbenes, and changes in barrier heights, distances, and angles can similarly be associated with varying borylene philicities. , …”

Section: Introductionmentioning

confidence: 99%

Photoreactions of Phenylborylene with Dinitrogen and Carbon Monoxide

et al. 2017

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Formal removal of two bonding partners from boranes, BR, yields borylenes, RB, which have been inferred as reactive intermediates in a number of reactions. Phenylborylene (R = CH; 1) is accessible from phenyldiazidoborane by photochemical extrusion of dinitrogen under matrix isolation conditions. Concomitantly, the nitrene PhNBN is formed via phenyl rearrangement. Here we used a combination of UV/vis, IR, and ESR spectroscopy under cryogenic matrix isolation conditions to investigate the properties and reactivity of phenylborylene. We detected an absorption band of phenylborylene at 375 nm (S → S) and tentatively assigned the S → S transition to a very weak band at 518 nm. We also show for the first time that an electrophilic borylene such as 1 can react with N reversibly and with CO irreversibly under photochemical conditions. The corresponding photoproducts PhBNN and PhBCO have triplet electronic ground states. Their small E values are in agreement with the linear arrangements Ph-B-N-N and Ph-B-C-O obtained by density functional theory computations. The D values decrease in the series PhNBN > PhBNN > PhBCO and approach the value for phenylcarbene (PhCH). Indeed, the boron center in PhBCO is isoelectronic with the carbene center in PhCH. The compounds are the first examples of boron analogues of diazoalkanes (RCNN) and ketenes (RCCO), and their formation may serve as a demonstration of the high reactivity of phenylborylene.

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Ring Enlargement of Three‐Membered Boron Heterocycles upon Reaction with Organic π Systems: Implications for the Trapping of Borylenes

Krasowska

Bettinger

2016

Chemistry A European J

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New low-energy pathways for the reaction between substituted boriranes and borirenes with unsaturated hydrocarbons (ethyne or ethene) were discovered using density functional and coupled cluster theory. The interaction between the π bond of the hydrocarbon and the empty p orbital of the boron center leads to ring expansion of the three-membered to a five-membered boron heterocycle. The reactions are strongly exothermic and have low or even no barriers. They involve intermediates with a pentacoordinate boron center with two hydrocarbon molecules coordinating to boron akin to metal-olefin complexes. These borylene complexes are shallow minima on the potential energy surfaces. But significantly higher barriers for ring formation are computed for 1,5-cyclooctadiene and dibenzocyclooctatetraene complexes of borylenes, making these complexes likely detectable under appropriate experimental conditions. Our computational findings have implications for the interpretation of trapping experiments of thermally generated small borylenes with excess of small π systems. Because of very low barriers for reactions of three-membered boron heterocycles with π systems and the at least locally large excess of the latter under such conditions, formation of five-membered boron heterocycles should be considered.

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Computational Study of van der Waals Complexes between Borylenes and Hydrocarbons

Cited by 4 publications

References 65 publications

Coordination and Insertion: Competitive Channels for Borylene Reactions

Coordination and Insertion: Competitive Channels for Borylene Reactions

Photoreactions of Phenylborylene with Dinitrogen and Carbon Monoxide

Ring Enlargement of Three‐Membered Boron Heterocycles upon Reaction with Organic π Systems: Implications for the Trapping of Borylenes

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