Reactivity of Diphenylberyllium as a Brønsted Base and Its Synthetic Application

Thomas‐Hargreaves, Lewis R.; Berthold, Chantsalmaa; Augustinov, William; Müller, Mat­thias; Ivlev, Sergei I.; Buchner, Magnus R.

doi:10.1002/chem.202200851

Cited by 13 publications

(4 citation statements)

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“…The heteroleptic bromo(duryl)beryllium complex, 1 , was synthesized by salt metathesis of CAAC-stabilized beryllium dibromide with duryllithium. It is noteworthy that unlike heteroleptic heavier Ae aryl Grignards (AeArX), which are highly susceptible to Schlenk-type disproportionation into AeAr 2 and AeX 2 , beryllium-based aryl Grignards, both base-free and base-stabilized, show a marked preference for heterolepticity and can be synthesized by comproportionation, in particular when using sterically demanding ligands. − In line with these observations, complex 1 does not disproportionate into [(CAAC)BeDur] 2 (Dur = 2,3,5,6-triphenylmethyl = duryl) and [(CAAC)BeBr 2 ] even after prolonged heating in toluene up to 100 °C.…”

Section: Resultsmentioning

confidence: 73%

Tricoordinate Beryllium Radicals and Their Reactivity

Czernetzki,

Arrowsmith,

Endres

et al. 2024

Inorg. Chem.

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The one-electron reduction of [(CAAC)Be(Dur)Br] (CAAC = cyclic alkyl(amino)carbene, Dur = 2,3,5,6tetramethylphenyl = duryl) with lithium sand in diethyl ether yields the first neutral, tricoordinate, and moderately stable beryllium radical, [(CAAC)(Et 2 O)BeDur] • (2-Et 2 O), which undergoes a facile second one-electron reduction concomitant with the insertion of the beryllium center into the endocyclic C−N CAAC bond and a cyclopropane-forming C−H bond activation of an adjacent methyl group. In situ generation of 2-Et 2 O and addition of PMe 3 yield the stable analogue, [(CAAC)(Me 3 P)BeDur] • (2-PMe 3 ), which serves as a platform for PMe 3 -ligand exchange with stronger donors, generating the radicals [(CAAC)LBeDur] • (2-L, L = isocyanides, pyridines, and N-heterocyclic carbenes). X-ray structural analyses show trigonal-planar beryllium centers and strong π backbonding from the metal to the CAAC ligand. The EPR signals of all six isolated [(CAAC)LBeDur]• radicals display significant, albeit small, hyperfine coupling to the 9 Be nucleus. DFT calculations show that the spin density is mostly delocalized over the CAAC π framework and, where present, the isocyanide CN moiety, with only a small proportion (3−6%) on the beryllium center. 2-PMe 3 proved thermally unstable at 80 °C, first undergoing radical hydrogen abstraction with the solvent, followed by insertion of beryllium into the endocyclic C−N CAAC bond and PMe 3 transfer to the former carbene carbon atom. The reactions with diphenyl disulfide and phenyl azide occur at the beryllium center and yield the corresponding Be(II) phenyl sulfide and amino complexes, respectively, the latter concomitant with radical transfer and hydrogen abstraction by the beryllium-bound nitrogen center.

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Section: Resultsmentioning

confidence: 73%

Tricoordinate Beryllium Radicals and Their Reactivity

Czernetzki,

Arrowsmith,

Endres

et al. 2024

Inorg. Chem.

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“…Typically only line broadening but no resolved 1 J CBe coupling is observed in beryllium organic compounds with anionic or neutral C-ligands. 32–36 Thus, the presence of 1 J CBe coupling is evidence for little to no dissociation of the cyanide ligand and of a strong Be–C bond. This is further supported by the lack of exchange cross peaks in EXSY NMR experiments (ESI Fig.…”

Section: Resultsmentioning

confidence: 99%

Gauging ambiphilicity of pseudo-halidesviaberyllium-trispyrazolylborato compounds

Berthold,

Müller,

Ivlev

et al. 2023

Dalton Trans.

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“…Following a period of relative dormancy, the molecular chemistry of beryllium has experienced something of a renaissance during the past decade. While the solution behavior and toxicity of organo- and inorganic beryllium(II) compounds continues to provide a significant conventional focus, − noteworthy effort has also been applied to the pursuit of lower oxidation state Be species. − In this latter regard, the groups of Braunschweig and Gilliard have succeeded in the isolation of several cyclic alkyl(amino)carbene (CAAC)-supported compounds in which formal Be(0) or Be(I) oxidation states may be ascribed to an isolated beryllium center. − Notably, and very recently, the long sought , and predicted , isolation of a Be–Be bonded species has been realized through Aldridge and co-workers’ isolation of CpBeBeCp. , …”

Section: Introductionmentioning

confidence: 99%

Cesium Reduction of a Lithium Diamidochloroberyllate

Pearce,

Hill,

Mahon

2024

Organometallics

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Room temperature reaction of elemental cesium with the dimeric lithium chloroberyllate [{SiN Dipp }BeClLi] 2 [{SiN Dipp } = {CH 2 SiMe 2 N(Dipp)} 2 , where Dipp = 2,6-di-isopropylphenyl, in C 6 D 6 results in activation of the arene solvent.Although, in contrast to earlier observations of lithium and sodium metal reduction, the generation of a mooted cesium phenylberyllate could not be confirmed, this process corroborates a previous hypothesis that such beryllium-centered solvent activation also necessitates the formation of hydridoberyllium species. These observations are further borne out by the study of an analogous reaction performed in toluene, in which case the proposed generation of formally low oxidation state beryllium radical anion intermediates induces activation of a toluene sp 3 C−H bond and the isolation of the polymeric cesium benzylberyllate, [Cs({SiN Dipp }BeCH 2 C 6 H 5 )] ∞ .

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Reactivity of Diphenylberyllium as a Brønsted Base and Its Synthetic Application

Cited by 13 publications

References 50 publications

Tricoordinate Beryllium Radicals and Their Reactivity

Tricoordinate Beryllium Radicals and Their Reactivity

Gauging ambiphilicity of pseudo-halidesviaberyllium-trispyrazolylborato compounds

Cesium Reduction of a Lithium Diamidochloroberyllate

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