2016
DOI: 10.1016/j.poly.2016.03.044
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Functionalization of an iridium–diamidocarbene complex by ligand-based reactions with titanocene and zirconocene sources

Abstract: A (t Bu-DAC)Ir(COD)Cl complex (t Bu-DAC = 1,3-bis(N-tert-butyl)diamidocarbene, COD = 1,5-cyclooctadiene) reacts with titanocene(II) and zirconocene(II) sources to form heterobimetallic complexes by metallocene coordination at the remote oxalamide binding site. Structural and spectroscopic data reveal the formation of a doubly-reduced [ t Bu-DAC] 2ligand upon metallocene complexation. The metallocene-substituted complexes catalyze benzaldehyde hydrosilation at rates over an order of magnitude faster than those … Show more

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Cited by 10 publications
(5 citation statements)
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“…Therefore, triarylsilylium and diarylalkylsilylium ions are significant stronger Lewis acids than neutral boron compounds such as B(C 6 F 5 ) 3 (Δδ 31 P = 30.6) and B(OC 6 F 5 ) 3 (Δδ 31 P = 34.5) 4 or than the neutral silicon Lewis acid Si(CatF) 2 , 11 (Δδ 31 P = 35.9), recently reported by Liberman-Martin et al (Scheme 3). 33 Their Lewis acidity is in the same range as that determined for electrophilic phosphorus(V) cations such as [(F 5 C 6 ) 3 PF] + , 12 (Δδ 31 P = 40.4). 8 Silylium ions are outperformed with respect to Lewis acidity only by cationic borenium compounds such as 13.…”
Section: ■ Results and Discussionmentioning
confidence: 74%
“…Therefore, triarylsilylium and diarylalkylsilylium ions are significant stronger Lewis acids than neutral boron compounds such as B(C 6 F 5 ) 3 (Δδ 31 P = 30.6) and B(OC 6 F 5 ) 3 (Δδ 31 P = 34.5) 4 or than the neutral silicon Lewis acid Si(CatF) 2 , 11 (Δδ 31 P = 35.9), recently reported by Liberman-Martin et al (Scheme 3). 33 Their Lewis acidity is in the same range as that determined for electrophilic phosphorus(V) cations such as [(F 5 C 6 ) 3 PF] + , 12 (Δδ 31 P = 40.4). 8 Silylium ions are outperformed with respect to Lewis acidity only by cationic borenium compounds such as 13.…”
Section: ■ Results and Discussionmentioning
confidence: 74%
“…Other systems with Pt nanoparticles on silica have shown that addition of Zn leads to higher turnover rates for dehydrogenation catalysis likely due to the electronic modulation of the Pt center . Similar effects have been studied in the homogeneous literature with the use of Lewis acid triggers. In these systems, remote binding of a Lewis acid to the ligand framework has been shown to modulate the reactivity of the transition metal (Figure C). Specifically, the binding of B­(C 6 F 5 ) 3 at remote nitrogen positions of the pyrazine ligand leads to an increase in electrophilicity at the Pt, which then led to a 64 000-fold rate acceleration for biaryl reductive elimination.…”
Section: Modified Silica Supportsmentioning
confidence: 68%
“…This design strategy has been employed for a wide range of complexes, where protonation/deprotonation, interactions with a Lewis acid, or addition of an electrophile in the secondary sphere has led to significant rate enhancements in stoichiometric and catalytic processes (Figure ). , …”
Section: Protic Groups Remote From the Reactive Sitementioning
confidence: 99%