2010
DOI: 10.1002/jcc.21515
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A computational study on the capability of borane‐cyclic boryl anion adducts to act as hydrogen atom donors

Abstract: According to our theoretical approaches, a cyclic boryl anion can act as a Lewis base like its isoelectronic counterpart N-heterocyclic carbene, reducing the homolytic bond dissociation energy of B-H in BH(3). However, the donating efficiency is affected by the counter cation in both gas phase and nonpolar solvents. Moreover, we also predict the seven-membered ring boryl anion 5, although it has not yet synthesized, to be the most efficient reagent to reduce the bond dissociation energy of a B-H bond in BH(3).… Show more

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Cited by 12 publications
(8 citation statements)
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“…NHC-boranes 2 are an emerging class of reagents with applications in ionic, organometallic, and radical reactions . Thus, we felt that compounds like 4 were doubly interesting as boryl-substituted borohydrides and as anionic analogs of neutral NHC-boranes . According to the latter analogy, anions like 4 can also be viewed as unusual examples of complexes between a boron-derived Lewis acid (BH 3 ) and a boron-derived Lewis base ( 3 ).…”
mentioning
confidence: 99%
“…NHC-boranes 2 are an emerging class of reagents with applications in ionic, organometallic, and radical reactions . Thus, we felt that compounds like 4 were doubly interesting as boryl-substituted borohydrides and as anionic analogs of neutral NHC-boranes . According to the latter analogy, anions like 4 can also be viewed as unusual examples of complexes between a boron-derived Lewis acid (BH 3 ) and a boron-derived Lewis base ( 3 ).…”
mentioning
confidence: 99%
“…43 and 44 do not have conjugation at the boron part at all, thus their electrophilicity indices (5.44 and 5.41 eV) are both smaller than that of no. 35. In comparison, 5a), a result of their definition.…”
Section: The Journal Of Organic Chemistrymentioning
confidence: 99%
“…Density functional theory (DFT) based calculations were carried out by using the Gaussian 09 package at the (U)­MPW1K/6-31+G­(d) level for all molecular species under the ideal gas assumption. This model chemistry has been proven to be able to accurately describe the geometries of zwitterions (i.e., LB stabilized boryl radicals). , For each species, a geometry optimization followed by a frequency calculation using the harmonic oscillator model was employed to identify stable minimum energy structure.…”
Section: Theoretical Calculationsmentioning
confidence: 99%
“…Überraschend ist das nicht, denn 68 ist letztlich immer noch ein Borhydrid. Rechnungen zufolge hat 68 eine schwache B-H-Bindung, [63] und nach ersten Untersuchungen kann es sowohl an radikalischen als auch ionischen und metallorganischen Reaktionen teilnehmen. [62] …”
Section: P Curran Et Alunclassified