Synthesis, structure, and fluxional behavior of 4-sila-, 4-germa-, and 4-stanna-3a,4,4a,8-tetrahydro-4,4,8,8-tetramethyl-s-indacenes

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“…These were thoroughly degassed before use by passage of a stream of dinitrogen through the solvent. The following compounds were prepared according to published procedures: [Fe(Cp*)Cl(tmeda)], [17] [Co(Cp*)Cl] 2 , [55] [Li 2 (C 5 H 4 ) 2 CMe 2 ], [56,57] [Li 2 (C 5 H 4 ) 2 SiMe 2 ], [57,58] [Li 2 -(C 5 H 4 ) 2 GeMe 2 ], [57,59] [Li 2 {(C 5 H 4 )Si(Me) 2 } 2 ], [57,60] + .…”

Electronic Coupling in Mixed‐Valence Dinuclear Ferrocenes and Cobaltocenes with Saturated Bridging Groups

“…These were thoroughly degassed before use by passage of a stream of dinitrogen through the solvent. The following compounds were prepared according to published procedures: [Fe(Cp*)Cl(tmeda)], [17] [Co(Cp*)Cl] 2 , [55] [Li 2 (C 5 H 4 ) 2 CMe 2 ], [56,57] [Li 2 (C 5 H 4 ) 2 SiMe 2 ], [57,58] [Li 2 -(C 5 H 4 ) 2 GeMe 2 ], [57,59] [Li 2 {(C 5 H 4 )Si(Me) 2 } 2 ], [57,60] + .…”

Electronic Coupling in Mixed‐Valence Dinuclear Ferrocenes and Cobaltocenes with Saturated Bridging Groups

“…4 It is interesting to note that unlike 2, no dynamics caused by elementotropic rearrangements is observed at all for the type 1 silicon derivative. 4 This fact shows that replacement of one of the bridging Si(CH3) 2 groups in molecule 2 by a C(CH3) 2 group results in a sharp increase in the activation barriers to rearrangements, which is likely associated with increasing strains in the five-membered cycle in the type lc and 2e intermediates and in the transition states.…”

“…The 4-sila-, -germa-and -stanna derivatives of (1) have been synthesized and studied in detail previously. 4 In these molecules, possible migrations of the bridging atom of the element are restricted to three sites: C(1)/(7), C(Sa)/(7a), and C(3a)/(4a). In this case, the tin and germanium derivatives exist in solution as equilibrium mixtures of interconverting isomers la and lb (Scheme I).…”

“…The use of 2D exchange ACCORDION NMR spectroscopy and a specially developed procedure for quantitative processing of the spectra 5 made it possible to reveal the mechanisms and to calculate the kinetic and thermodynamic parameters of the rearrangements of compounds 1 (E = Ge, Sn). 4,5 Much more complex elementotropic equilibria occur for tetrahydro -4,4,8,8- obtained in attempting to synthesize the corresponding 6,6-dialkyl-6-elementafulvenes (4). ~--9 However, compounds 4 appeared to be extremely unstable and reactive and dimerize instantly in an individual state 6-1z (Scheme 2).…”

“…It should be noted that despite the efficient synthetic application of compounds of types 1--3, their dynamic stereochemistry has been studied in few works. [3][4][5]14 The molecular dynamics of type 2 disilicon derivatives has been investigated only in one paper 14 dedicated to studying the dynamic behavior of the monoanion 5 obtained by deprotonation of one of the cyclopentadienyl rings of 2. Of special note is the fact that the dynamic stereochemistry of 5 is in essence a simplified model of the rearrangements of 2, since [1,5]-sigmatropic shifts of the silicon atoms in compound 5 are possible only in the one cyclopentadienyl ring that does not undergo deprotonation.…”

Mechanisms and kinetics of the elementotropic rearrangements of tetrahydro-4,4,8,8-tetramethyl-4,8-disila-sym-indacene

Dichlorodimethylsilane