2015
DOI: 10.1246/bcsj.20150131
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Main Group Lewis Acids in Frustrated Lewis Pair Chemistry: Beyond Electrophilic Boranes

Abstract: The advent of frustrated Lewis pair (FLP) chemistry almost a decade ago was based on the reactivity of sterically encumbered combinations of electrophilic boranes and phosphines with hydrogen. Since that time the chemistry has broadened dramatically in terms of reactivity and applications. Nonetheless, the majority of the work has continued to exploit the borane B(C6F5)3. In this review, we describe FLP chemistry that has developed by employing alternatives to this Lewis acid. Lewis acids derived from group 13… Show more

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Cited by 117 publications
(80 citation statements)
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“…11 B NMR of [10] 2+ detected at ¹25.4 ppm is markedly upfield shifted compared to that observed for B resonance at 80 and 2530 ppm, respectively. In fact, the observed 11 B chemical shift is also more upfield shifted in comparison with the pyridine stabilized tetra-coordinated boron dications, re-emphasizing the strong σ-and π-donating ability of the carbodicarbene ligand.…”
Section: +mentioning
confidence: 62%
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“…11 B NMR of [10] 2+ detected at ¹25.4 ppm is markedly upfield shifted compared to that observed for B resonance at 80 and 2530 ppm, respectively. In fact, the observed 11 B chemical shift is also more upfield shifted in comparison with the pyridine stabilized tetra-coordinated boron dications, re-emphasizing the strong σ-and π-donating ability of the carbodicarbene ligand.…”
Section: +mentioning
confidence: 62%
“…(Figure 3). Structural characterization of [10][BH 4 ] 2 confirms the dicationic nature of [10] 2+ and the trigonal planar geometry at the boron atom with a CBC bond angle of 127.5°. The BC Ligand bond distances of 1.534 and 1.523 ¡ are noticeably shorter than that of NHC-stabilized borenium cations (1.58 ¡), indicating the presence of partial π-bonding character of the boroncarbodicarbene interaction.…”
Section: +mentioning
confidence: 81%
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