Reactivity of NHC Alane Adducts towards N‐Heterocyclic Carbenes and Cyclic (Alkyl)(amino)carbenes: Ring Expansion, Ring Opening, and Al−H Bond Activation

Schneider, H.; Hock, Andreas; Bertermann, Rüdiger; Radius, Udo

doi:10.1002/chem.201702166

Cited by 79 publications

(99 citation statements)

References 121 publications

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“…The Al–C NHC bond [ d C1–Al1 = 207.3(2) pm] is elongated as compared to the Al–C aNHC bond [ d C5–Al2 = 199.1(2) pm], which is most likely induced by steric repulsion of the Mes and t Bu substituents. Nevertheless, these bond lengths are in line with reported aluminum NHC and aNHC compounds . In contrast to the Al– C c arbene bonds, the aluminum nitrogen distances of d Al1–N3 = 196.0(2) pm d Al2–N2 = 194.4(2) pm differ only slightly.…”

Section: Resultssupporting

confidence: 90%

“…Hence, a proton‐coupled rearrangement has occurred, which has, however, already been reported by others. [14o], [23e] 2) We were able to isolate and characterize compound 3 (Scheme ), which can be viewed as adduct of monomeric imidazolyl alane with t Bu 2 AlBr. Compound 3 is stable for several months at ambient temperature under Schlenk conditions, as isolated compound, as well as in solution (C 6 D 6 , hexane).…”

Section: Resultsmentioning

confidence: 99%

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Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

et al. 2020

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Targeting the synthesis of Al/C based ambiphilic molecules, we investigated the dehydrohalogenation of a series of (benz)imidazole alane adducts. Depending on the steric bulk of the heterocycle, different dimeric products with various ring sizes were obtained. Dehydrohalogenation of the adduct of 1mesityl imidazole ( Mes Im) and 0.5 [tBu 2 AlBr] 2 furnished the dimer 2, featuring a "classical" N-heterocyclic carbene (NHC) and a mesoionic or "abnormal" NHC (aNHC) subunit within a single molecule. The dimer is bound loosely enough to allow thermally induced isomerization of 2 into the isomers 2 NHC (all NHC) and 2 aNHC (all aNHC). Dehydrohalogenation of the adduct of 1-mesityl-2-methyl imidazole ( Mes Im Me ) and 0.5 [tBu 2 AlBr] 2 (4) [a] Dr. M. Simon, Dr. M. Radius, Dr.Although several compounds with this architecture were described, [16,17] no reactivity studies for such with small molecules were reported until now. Inspired by our earlier findings on hidden aluminum phosphorus FLPs [19] and related B/C combinations [20] as well as the dimeric FLP C reported by Fontaine et al., [21] we targeted imidazolyl-alanes (D) bearing a highly Lewis acidic aluminum atom in geminal position to the Lewis base. We anticipated that such dimers might show FLP-type reactivity, either as Al/C or Al/N FLP, depending on steric and electronic effects of the substituents. Herein we report our efforts in preparing imidazolyl alanes with various substituent patterns. Results and Discussion Alane-Substituted NHCsThe synthesis of an imidazolyl alane was attempted by dehydrohalogenation of Mes Im·tBu 2 AlBr 1 (see Experimental Section for the synthesis) by Na{N(SiMe 3 ) 2 } in THF at 80°C yielding compound 2 (Scheme 2, Mes Im = 1-mesityl imidazole). The product was isolated after recrystallization from hot toluene in 46 % yield. Interestingly, the deprotonation of the imidazoles selectively took place at two different positions of both heterocycles. Hence, 2 features a "classical" NHC and a mesoionic or "abnormal" [22] NHC subunit within a single molecule as evidenced by two carbene resonances in the 13 C{ 1 H} NMR spectrum (δ = 169.8 ppm for NHC and 150.8 ppm for aNHC, respectively). Additionally, four 15 N NMR chemical shifts and two well-separated sets of 1 H NMR resonances were detected. Scheme 2. Dehydrohalogenation of 1 leading to formation of 2. Blue indicates the NHC subunit, red the aNHC subunit.

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Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

et al. 2020

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“…Heating of 2c under the same conditions does not induce any CÀNb ond activation/RER,w hich is analogoust oo ther works on p-block element hydridea dducts of cAAC Me . [25] To probe the Lewis acidity of the two unique boron atoms in these new B,N-heterocycles, one additional equivalent of NHC Me was added to 3a and 3b,r esulting in the formation of adducts 4a and 4b in moderatey ields (Scheme 3). Monitoring this reaction by 11 BNMR, the B1ÀH1 resonances of 3a/3b disappear,w hereasn ew peaks emerge at À8.8 and À16.8 ppm for 4a and 4b,r espectively.T his assignment is further support- Atomicd isplacemente llipsoids are depicted at 50 %p robability and omitted at the ligand periphery.Hydrogena toms are omittedf or clarity,except for those bound to boron.S elected bond lengths []a nd angles [8]: for 2b B2À B1 1.699(2), B1ÀN1 1.408(2),B 2 ÀN2 1.570(2), B2ÀC1 1.633(2), B1ÀH1 1.12(2), N1-B1-B2 119.0(1), N2-B2-B1 110.4(1), N2-B2-C1 114.1(1), B1-B2-C1 114.6(1), B1-B2-C1-N3 33.5(2);for 2c:B1 ÀH1 1.18(2), N1ÀB1 1.419(4), B1ÀB2 1.678 (5) Atomic displacemente llipsoidsa re depicted at 50 %p robability and omitted at the ligand periphery.Most hydrogen atoms are omitted for clarity.S elected bond lengths []and angles [8]: for 3a:N2 ÀB2 1.443(2), B2ÀN4 1.411(2), N1ÀB1 1.403(2), B1ÀC1 1.574(2), C1ÀB2 1.588(2), C1ÀN3 1.474(2), B1ÀH1 1.11 (2), N2-B2-C1 116.6(1), B2-C1-B1105.…”

Section: Resultsmentioning

confidence: 99%

B−B Cleavage and Ring‐Expansion of a 1,4,2,3‐Diazadiborinine with N‐Heterocyclic Carbenes

Thiess

Mellerup

Braunschweig

2019

Chemistry A European J

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A 1,4,2,3‐diazadiborinine derivative was found to form Lewis adducts with strong two‐electron donors such as N‐heterocyclic and cyclic (alkyl)(amino)carbenes. Depending on the donor, some of these Lewis pairs are thermally unstable, converting to sole B,N‐embedded products upon gentle heating. The products of these reactions, which have been fully characterized by NMR spectroscopy, elemental analysis, and single‐crystal X‐ray diffraction, were identified as B,N‐heterocycles with fused 1,5,2,4‐diazadiborepine and 1,4,2‐diazaborinine rings. Computational modelling of the reaction mechanism provides insight into the formation of these unique structures, suggesting that a series of B−H, C−N, and B−B bond activation steps are responsible for these “intercalation” reactions between the 1,4,2,3‐diazadiborinine and NHCs.

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“…Recently we reported the synthesis of a six-coordinated aluminium cation [(iPr 2 Im) 4 •AlH 2 ] + IX as a side product of the reaction of lithium aluminium hydride with an excess of iPr 2 Im (iPr 2 Im = 1,3-diisopropyl-imidazolin-2-ylidene, see Scheme 1, IX). [7] Stephan et al presented [8] Jones and Stasch et al 4, Al1-H2 1.66(4), Al1-I1 2.586 (8); H1-Al1-H2 109.4 (18), H1-Al1-I1 108.7 (12), H2-Al1-I1 106.5 (14), C1-Al1-H1 114.3 (14), C1-Al1-H2 106.5 (14), C1-Al1-I1 105.88(7); 9: C1-Al1 2.039(3), Al1-H1 1.58 (5), Al1-H2 1.60(4), Al1-I1 2.5960 (10); H1-Al1-H2 104(2), H1-Al1-I1 110.5 (17), H2-Al1-I1 111.1 (14), C1-Al1-H1 106.7 (18), C1-Al1-H2 120.2 (14), C1-Al1-I1 103.77(9); 10: Ga-C1 2.036(4), Ga-H1 1.52 (6), Ga-H2 1.44 (7), Ga-I 2.6415 (6). C1-Ga-H1 109(2), C1-Ga-H2 108(2), C1-Ga-I 100.07 (13), H1-Ga-H2 122(3), H1-Ga-I 110(2), H2-Ga-I 105(2).…”

Section: Introductionmentioning

confidence: 99%

“…The coordination of NHCs, for example, to alanes and gallanes leads to the synthesis of stable NHC metal hydride adducts. [7,11,12] Thermally stable examples such as (Dipp 2 Im)•MH 3 (M = Al, Ga, In) have been prepared particularly for sterically demanding NHCs. Moreover, the syntheses of some low-valent, NHC-stabilized dinuclear hydrodialane and hydrodigallene compounds were presented, [13] for example the dialane [(Dipp 2 Im)•AlH 2 ] 2 which was reported by Jones et al [12,14] However, the formation of cationic aluminium and gallium dihydrides is rare and stabilization of [EH 2 ] + with two strong σ-donating NHC-ligands should lead to accessible hydroalane and hydrogallane cations.…”

Section: Introductionmentioning

confidence: 99%

Bis‐NHC Aluminium and Gallium Dihydride Cations [(NHC)₂EH₂]⁺ (E = Al, Ga)

2020

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The NHC alane and gallane adducts (NHC)•AlH 2 I (NHC = Me 2 Im Me 7, iPr 2 Im 8, iPr 2 Im Me 9) and (NHC)•GaH 2 I (NHC = Me 2 Im Me 10, iPr 2 Im Me 11, Dipp 2 Im 12; R 2 Im = 1,3-diorganyl-imidazolin-2-ylidene; Dipp = 2,6-diisopropylphenyl; iPr = isopropyl; Me 2 Im Me = 1,3,4,5-tetra-methyl-imidazolin-2-ylidene) were prepared either by the simple yet efficient reaction of the NHC adduct (NHC)•AlH 3 with elemental iodine or by the treatment of (NHC)•GaH 3 with an excess of methyl iodide at room temperature. The reaction of one equivalent of the group [a] A

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Reactivity of NHC Alane Adducts towards N‐Heterocyclic Carbenes and Cyclic (Alkyl)(amino)carbenes: Ring Expansion, Ring Opening, and Al−H Bond Activation

Cited by 79 publications

References 121 publications

Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

B−B Cleavage and Ring‐Expansion of a 1,4,2,3‐Diazadiborinine with N‐Heterocyclic Carbenes

Bis‐NHC Aluminium and Gallium Dihydride Cations [(NHC)₂EH₂]⁺ (E = Al, Ga)

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Reactivity of NHC Alane Adducts towards N‐Heterocyclic Carbenes and Cyclic (Alkyl)(amino)carbenes: Ring Expansion, Ring Opening, and Al−H Bond Activation

Cited by 79 publications

References 121 publications

Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

Imidazolyl Alanes – Synthesis, Structures, and Reactivity Studies

B−B Cleavage and Ring‐Expansion of a 1,4,2,3‐Diazadiborinine with N‐Heterocyclic Carbenes

Bis‐NHC Aluminium and Gallium Dihydride Cations [(NHC)2EH2]+ (E = Al, Ga)

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Bis‐NHC Aluminium and Gallium Dihydride Cations [(NHC)₂EH₂]⁺ (E = Al, Ga)