Affiliation:
1. Institut für Chemie und CINSaT University of Kassel Heinrich Plett-Straße 40 34132 Kassel Germany
2. Current address: School of Advanced Sciences Vellore Institute of Technology Vandalur-Kelambakkam Road, Rajan Nagar Chennai Tamil Nadu 600127 India
3. Department of Inorganic and Analytical Chemistry Budapest University of Technology and Economics Műegyetem Rkp 3 1111 Budapest Hungary
Abstract
AbstractA direct route to a doubly ferrocene bridged tetracyclic tetraphosphane 1 was developed via reductive coupling of Fe(CpPCl2)2 (2 a), where a chlorine terminated linear P4‐compound 3 could be identified as an intermediate. Selective P−P bond activation was further achieved by reacting 1 with elemental selenium or [Cp*Al]4, where regioselective insertion of Se or Al atoms resulted in ferrocenylene bridged [P4Se] (4) or [P4Al] (7) moieties. Compound 7 can be transformed to a hydrogen terminated linear P4 species, 8, with protic solvents. Methylation of compound 1 with MeOTf, proceeds via intermediate formation of monomethylated species 5, which gradually produced Me2‐terminated dicationic 6, again containing a linear P4‐unit. Besides spectroscopic characterization, the structural details of compounds 1, 4, 6, and 8 could be determined by SC‐XRD. Moreover, DFT calculations were used to rationalize the reactivity of 1, derived compounds and intermediates. As a key feature, 1 undergoes ring opening polymerization to a linear polyphosphane 9.
Funder
Budapesti Műszaki és Gazdaságtudományi Egyetem
Deutsche Forschungsgemeinschaft