Heterofunctionalization catalysis with organometallic complexes of calcium, strontium and barium

Abstract: Despite the routine employment of Grignard reagents and Hauser bases as stoichiometric carbanion reagents in organic and inorganic synthesis, a defined reaction chemistry encompassing the heavier elements of Group II (M = Ca, Sr and Ba) has, until recently, remained unreported. This article provides details of the recent progress in heavier Group II catalysed small molecule transformations mediated by well-defined heteroleptic and homoleptic complexes of the form LMX or MX 2 ; where L is a mono-anionic ligand … Show more

“…[38] The strontium analogue of 1 has also been similarly synthesized. [ 8 ]toluene. An X-ray crystal structure has been obtained for 3 for which an ORTEP drawing is given in Figure 4 along with selected bond lengths and angles.…”

“…[1] Whereas the catalytic activity of transition metal and rare earth complexes for the addition of a NÀH bond across CÀC multiple bonds has been largely described in the literature, [2][3][4][5][6] the use of alkaline earth (Ae) metal complexes as hydroamination catalysts is only now starting to emerge. [7,8] Ae metals are abundant, oxophilic, and redox-inactive in their cationic form. They are characterized by a wide range of ionic radii and cation charge densities (Mg 2 + = 0.72 ; Ca 2 + = 1.00 ; Sr 2 + = 1.18 , Ba 2 + = 1.35 for six-coordinate ions).…”

Highly Fluorinated Tris(indazolyl)borate Silylamido Complexes of the Heavier Alkaline Earth Metals: Synthesis, Characterization, and Efficient Catalytic Intramolecular Hydroamination

“…[38] The strontium analogue of 1 has also been similarly synthesized. [ 8 ]toluene. An X-ray crystal structure has been obtained for 3 for which an ORTEP drawing is given in Figure 4 along with selected bond lengths and angles.…”

“…[1] Whereas the catalytic activity of transition metal and rare earth complexes for the addition of a NÀH bond across CÀC multiple bonds has been largely described in the literature, [2][3][4][5][6] the use of alkaline earth (Ae) metal complexes as hydroamination catalysts is only now starting to emerge. [7,8] Ae metals are abundant, oxophilic, and redox-inactive in their cationic form. They are characterized by a wide range of ionic radii and cation charge densities (Mg 2 + = 0.72 ; Ca 2 + = 1.00 ; Sr 2 + = 1.18 , Ba 2 + = 1.35 for six-coordinate ions).…”

Highly Fluorinated Tris(indazolyl)borate Silylamido Complexes of the Heavier Alkaline Earth Metals: Synthesis, Characterization, and Efficient Catalytic Intramolecular Hydroamination

“…Base-catalyzed systems have been known for a long time [4], but the application of metal-based catalysts began with Marks' report on lanthanide compounds [5]. Since then, numerous metals have been investigated including lanthanides [6e8], early [9e11] and late transition metals [12e14] and more recently alkaline earth metals [15]. Neutral complexes of the latter metals are isoelectronic with cationic group 13 species.…”

Cationic organoaluminum compounds as intramolecular hydroamination catalysts

“…The presence of methyl groups on the pyridine ring resulted in 1,4-addition under kinetic control, followed by CÀH bond activation of the methyl group. Organocalcium reagents [16] evidently display an unprecedented reactivity pattern with respect to the balance between nucleophilicity and basicity.…”

Insertion of Pyridine into the Calcium Allyl Bond: Regioselective 1,4‐Dihydropyridine Formation and CH Bond Activation