Generation of Weakly Bound Al–N Lewis Pairs by Hydroalumination of Ynamines and the Activation of Small Molecules: Phenylethyne and Dicyclohexylcarbodiimide

Holtrichter‐Rößmann, Thorsten; Rösener, Christian; Hellmann, Johannes; Uhl, Werner; Würthwein, Ernst‐Ulrich; Fröhlich, Roland; Wibbeling, Birgit

doi:10.1021/om3001179

Cited by 72 publications

(59 citation statements)

References 106 publications

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“…This property sheds an interesting light on the general character of frustrated Lewis pairs in terms of intra-and intermolecular activation and dual catalysis. In this view, the dehydrochlorination reactions reported here have similarity to earlier work of our groups, where we reported that an N/Al-Lewis pair is able to deprotonate even phenylacetylene, [20] a reaction which is absolutely inconceivable for tertiary amines.…”

Section: Quantum Chemical Calculationssupporting

confidence: 90%

Dehydrochlorination of Carboxylic Acid Chlorides by an Aluminum/Phosphorus‐Based Frustrated Lewis Pair and the Formation of Ketene Adducts

Uhl

Wegener

Würthwein

2015

Zeitschrift anorg allge chemie

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Abstract. The Al/P-based frustrated Lewis pair (FLP) Mes 2 P-C(=CH-Ph)-Al(CMe 3 ) 2 (1) reacted with carboxylic acid chlorides [Cl-C(=O)Me, Cl-C(=O)Et, Cl-C(=O)CH 2 CMe 3 ] by dehydrochlorination. The released hydrogen chloride molecules were captured by one equivalent of the FLP 1 to yield the previously published HCl adduct, Mes 2 P(H) + -C(=CH-Ph)-Al(Cl)(CMe 3 ) 2 -(3). This remarkable reaction resulted in the formal generation of ketenes, R(H)C=C=O, which were trapped by a second equivalent of 1 via the coordination

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Section: Quantum Chemical Calculationssupporting

confidence: 90%

Dehydrochlorination of Carboxylic Acid Chlorides by an Aluminum/Phosphorus‐Based Frustrated Lewis Pair and the Formation of Ketene Adducts

Uhl

Wegener

Würthwein

2015

Zeitschrift anorg allge chemie

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“…Although the majority of systems is limited to P/B or N/B pairs, the use of Al‐, C‐, or Si‐based Lewis acids emerged. Especially FLPs with Al Lewis acids have been able to add unique metal‐based reactivities to the growing repertoire: for example, the complexation of alkali metal hydrides, stoichiometric and catalytic dehydrocoupling of amine–boranes, activation of alkenes,, alkynes,, carbodiimides, isocyanates, hydrogen, CO 2 , and other carbonyl groups . Our expertise in alkaline earth metal chemistry stimulated us to expand the scope of Lewis acids with group 2 metal Lewis acids.…”

Section: Introductionmentioning

confidence: 99%

Frustrated Lewis Pair Chemistry with Magnesium Lewis Acids

et al. 2017

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Anilido imine–magnesium bromide complexes, (LHMgBr)2 and (LMeMgBr)2, have been prepared [LH = DIPP‐N(C6H4)C(H)N‐DIPP and LMe = DIPP‐N(C6H4)C(Me)N‐DIPP (DIPP = 2,6‐iPr2C6H3)]. Their dimeric crystal structures are compared to the dimer (DIPP‐nacnacMgBr)2 [DIPP‐nacnac = DIPP‐NC(Me)C(H)C(Me)N‐DIPP]. The anilido imine ligands show some degree of charge delocalization but are clearly more asymmetric than the DIPP‐nacnac complex: one of the N atoms has considerable anilido character, whereas the other one is close to an imine. Calculated natural population analysis (NPA) charges (B3PW91/6‐311++G**) and an atoms‐in‐molecules (AIM) study on model systems quantify the asymmetry in charge distribution. Quantification of the Lewis acidity of LHMgBr and LMeMgBr by the Gutmann–Beckett test gave acceptor numbers of 58.9 and 58.3, respectively. The complexes themselves are inert to a number of electrophiles; however, in combination with PPh3 the substrate 1‐butene oxide was ring‐opened. The resulting betaine‐type alkoxide complex is unstable and decomposes at room temperature through a Wittig‐type reaction. At higher temperatures also a reverse Wittig‐type decomposition is observed.

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“…[10] It is an important starting compound in hydroalumination reactions [1,11] and has an interme-diate steric shielding between that of bis(tert-butyl)aluminum hydride and the commercially available diisobutylaluminum hydride which is a standard reagent in organic transformations. Its molecular structure in the solid state has not yet been reported.…”

Section: Introductionmentioning

confidence: 99%

Molecular Structures of Dimeric and Trimeric Dineopentylaluminum Hydride and Trimeric Diphenylaluminum Hydride

Uhl

Appelt

Backs

et al. 2013

Zeitschrift anorg allge chemie

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Generation of Weakly Bound Al–N Lewis Pairs by Hydroalumination of Ynamines and the Activation of Small Molecules: Phenylethyne and Dicyclohexylcarbodiimide

Cited by 72 publications

References 106 publications

Dehydrochlorination of Carboxylic Acid Chlorides by an Aluminum/Phosphorus‐Based Frustrated Lewis Pair and the Formation of Ketene Adducts

Dehydrochlorination of Carboxylic Acid Chlorides by an Aluminum/Phosphorus‐Based Frustrated Lewis Pair and the Formation of Ketene Adducts

Frustrated Lewis Pair Chemistry with Magnesium Lewis Acids

Molecular Structures of Dimeric and Trimeric Dineopentylaluminum Hydride and Trimeric Diphenylaluminum Hydride

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