Structural Control in the Formation of Multidecker Sandwich Anions of Plumbocene:  The Effects of Encapsulating the Alkali Metal Counterions

• Published in: Organometallics Vol. 18; no. 7; pp. 1148 - 1153
• Main Authors: Beswick, Michael A, Gornitzka, Heinz, Kärcher, Jörg, Mosquera, Marta E. G, Palmer, Julie S, Raithby, Paul R, Russell, Christopher A, Stalke, Dietmar, Steiner, Alexander, Wright, Dominic S
• Format: Journal Article
• Language: English
• Published: American Chemical Society 29.03.1999
• ISSN: 0276-7333; 1520-6041
• DOI: 10.1021/om980777p

Addition of CpM (Cp = C5H5; M = Li, Na, K, Cs) to Cp2E (Cp = C5H5; E = Sn, Pb) produces π-anions of general formula [Cp2 x +1E x ]-. Multidecker anions (with x > 1) can be prepared for Pb if crown or cryptand ligands coordinate the alkali metal cations. The syntheses and structures of the new complexes [Cp3Sn]-·[Li(12-crown-4)2]+ (2), [Cp2Pb(μ-Cp)Na·(15-crown-5)] (3), [Cp5Pb2]-[K(2,2,2-crypt)]+·THF (4), [Cp2Pb(μ-Cp)Pb(μ-Cp)Cs(18-crown-6)] (5), and [Cp5Pb2]-[Li(12-crown-4)2]+·2THF (6) are reported. This study, together with that on [Cp9Pb4]-[Cp5Pb2]-[{Li(12-crown-4)2 +}2] (1), which we have communicated previously, indicates that charge separation and lattice energy considerations subtly control the aggregation of the multidecker Pb(II) anions involved. These factors allow the potential control of the anion homologues formed by changing the solvation sphere of the alkali metal cations. However, as is illustrated by the structures of 1 and 6, which contain the same [Li(12-crown-4)2]+ countercation, in certain cases structural modification can be controlled by the reaction employed.