Magnesium(I) Dimers Bearing Tripodal Diimine–Enolate Ligands: Proficient Reagents for the Controlled Reductive Activation of CO₂ and SO₂

Abstract: The first examples of magnesium(I) dimers bearing tripodal ligands, [(Mg{κ(3) -N,N',O-(ArNCMe)2 (OCCPh2 )CH})2 ] [Ar=2,6-iPr2 C6 H3 (Dip) 7, 2,6-Et2 C6 H3 (Dep) 8, or mesityl (Mes) 9] have been prepared by post-synthetic modification of the β-diketiminato ligands of previously reported magnesium(I) systems, using diphenylketene, OCCPh2 . In contrast, related reactions between β-diketiminato magnesium(I) dimers and the isoelectronic ketenimine, MesNCCPh2 , resulted in reductive insertion of the substrate in… Show more

“…In their recent investigation on the activation of CS 2 by [K(L)][(BDI Dipp,tBu )Ni(S)] (L = 18-C-6 or 2,2,2-cryptand), the Hayton group reported that following addition of a first CS 2 molecule to the nickel sulphide moiety, yielding trithiocarbonate, a further molecule of CS 2 is sequestered through C-C bond formation at the central methine carbon of the BDI ligand and yields an unexpected Ni derivative shown on Scheme 31. 138 Interestingly, the resulting tripodal monoanionic diamine-enolate skeleton has proven to be a good platform to support alkaline-earth and Ti chemistry. 77,137 In an analogous way, treatment of (BDI*)MgI (OEt 2 ) or (BDI*)Mg-Mg(BDI*) with diphenylketene yields the corresponding diamine-enolate cycloaddition products (Scheme 31).…”

“…136 Metal-ligand cooperative activation of ketene OvCvCPh 2 by the four-coordinate Ti(IV) imide (BDI*)Ti(NDipp)(OTf ) affords the tripodal diamine-enolate complex represented on Scheme 31. 77,137,138 The reactivity of (BDI*)Mg-Mg(BDI*) with OvCvCPh 2 is unique since other heteroallenes such as CO 2 , NCO and azides preferentially insert into the Mg-Mg bond. 138 Interestingly, the resulting tripodal monoanionic diamine-enolate skeleton has proven to be a good platform to support alkaline-earth and Ti chemistry.…”

On the non-innocence of “Nacnacs”: ligand-based reactivity in β-diketiminate supported coordination compounds

“…In their recent investigation on the activation of CS 2 by [K(L)][(BDI Dipp,tBu )Ni(S)] (L = 18-C-6 or 2,2,2-cryptand), the Hayton group reported that following addition of a first CS 2 molecule to the nickel sulphide moiety, yielding trithiocarbonate, a further molecule of CS 2 is sequestered through C-C bond formation at the central methine carbon of the BDI ligand and yields an unexpected Ni derivative shown on Scheme 31. 138 Interestingly, the resulting tripodal monoanionic diamine-enolate skeleton has proven to be a good platform to support alkaline-earth and Ti chemistry. 77,137 In an analogous way, treatment of (BDI*)MgI (OEt 2 ) or (BDI*)Mg-Mg(BDI*) with diphenylketene yields the corresponding diamine-enolate cycloaddition products (Scheme 31).…”

“…136 Metal-ligand cooperative activation of ketene OvCvCPh 2 by the four-coordinate Ti(IV) imide (BDI*)Ti(NDipp)(OTf ) affords the tripodal diamine-enolate complex represented on Scheme 31. 77,137,138 The reactivity of (BDI*)Mg-Mg(BDI*) with OvCvCPh 2 is unique since other heteroallenes such as CO 2 , NCO and azides preferentially insert into the Mg-Mg bond. 138 Interestingly, the resulting tripodal monoanionic diamine-enolate skeleton has proven to be a good platform to support alkaline-earth and Ti chemistry.…”

On the non-innocence of “Nacnacs”: ligand-based reactivity in β-diketiminate supported coordination compounds

“…in 1 and 2. [3][4][5][6][7] In addition to these, a remarkable mixed valence More than being just chemical curiosities, dimeric magnesium(I) complexes, especially those incorporating β-diketiminate ligands, have been widely applied as soluble, selective and safe reducing agents in a diverse range of inorganic and organic synthetic transformations. [3] The growing popularity of these reagents lies with the fact that their use can lead to synthetic outcomes that are not achievable with traditional reducing agents, such as alkali metals, KC 8 and sodium naphthalide.…”

Two‐Coordinate Magnesium(I) Dimers Stabilized by Super Bulky Amido Ligands

“…Alkali-und Erdalkalimetalle S Das ionische Supramolekül Li + @C 60 ⊂[10]CCP bildet sich bei der Reaktion von Li + @C 60 mit dem Cycloparaphenylen [10]CCP. Die Kristallstrukturanalyse bestätigt die vermutete 1:1-Komplexierung, wobei zwei kristallographisch unabhängige Li + @C 60 ⊂[10]CCP-Strukturen existieren.…”

“…In der Natriumverbindung (2) umgeben jeweils drei Chelatliganden die Ionen verzerrt oktaedrisch, die langen Na-P-Abstände (2,95 -3,03 Å) weisen (11). 10) Über Berylliumverbindungen ist im Vergleich zu den schweren Homologen relativ wenig bekannt. Jetzt gelang es, die beiden Berylliumcarbonate OCBeCO 3 und COBeCO 3 in einer Neonmatrix zu isolieren und zu untersuchen.…”

Anorganische Molekülchemie