2016
DOI: 10.1039/c5sc03914b
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Many Mg–Mg bonds form the core of the Mg16Cp*8Br4K cluster anion: the key to a reassessment of the Grignard reagent (GR) formation process?

Abstract: It caused a sensation eight years ago, when the first room temperature stable molecular compound with a Mg–Mg bond (LMgMgL, L = chelating ligand) containing magnesium in the oxidation state +1 was prepared.

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Cited by 17 publications
(12 citation statements)
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“…14 On the basis of preliminary observations, we suggest that carbon–fluorine bond cleavage may not proceed through radical intermediates and the concerted pathway remains most likely. 15 Although a crossover experiment between 1 and 3 results in slow formation of the asymmetric species 4 at 25 °C (Figure 4a and 5), this result could be explained by a ligand exchange reaction in which the Mg–Mg core remains intact.…”
mentioning
confidence: 97%
“…14 On the basis of preliminary observations, we suggest that carbon–fluorine bond cleavage may not proceed through radical intermediates and the concerted pathway remains most likely. 15 Although a crossover experiment between 1 and 3 results in slow formation of the asymmetric species 4 at 25 °C (Figure 4a and 5), this result could be explained by a ligand exchange reaction in which the Mg–Mg core remains intact.…”
mentioning
confidence: 97%
“…The cluster isomer represents the global minimum structure, obtained selectively after slow re‐arrangement processes at room temperature from the cyclic isomer, as the kinetic product. As observed for the tin atoms in [Sn 4 (GeAr′) 2 ], the germanium atoms in [Si 4 Ge 2 (Tip) 6 ] originate from a tetrel(II) precursor, GeCl 2 ⋅dioxane in this case. An analogue silicon cluster, [Si 6 (Tip) 6 ], is formed upon reduction of [Si 3 (Tip) 3 Cl 3 ] …”
Section: Formation Of Ligand‐protected Metal Clustersmentioning
confidence: 51%
“…In 2016, Schnöckel and co‐workers reported the first metalloid magnesium cluster, which represents a potential snapshot intermediate from the bulk metal to a Grignard reagent . A magnesium(I) halide was produced at higher temperature and stabilized in a metastable solution at −40 °C.…”
Section: Formation Of Ligand‐protected Metal Clustersmentioning
confidence: 99%
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“…In every case, these compounds are kinetically stabilized by sterically bulky N , N ′‐chelating, or N , N ′, O ‐tripodal, anionic ligands, so far confined to a range of β‐diketiminates, a guanidinate, a diiminophosphinate, an ene‐diamide, and several diimine‐enolates (Figure ) . Additional examples include a remarkable mixed valence magnesium cluster anion, [Mg 16 Cp* 8 Br 4 K] − (Cp*=C 5 Me 5 − ), which was recently reported and shown by computational studies to contain no less than 27 Mg−Mg bonds …”
Section: Figurementioning
confidence: 99%