Internal ferrocenylalkynes - a comparative electrochemical and mass spectrometric study

A series of ferrocenylalkynes FcC drop CY, where Fc is ferrocenyl and Y = H (1), Me (2), Ph (3), EMe, [E = C (4), Si (5), and Ge (6)], I (8), CPh2(OR) [R = H (9), Me (10)], CHO (11), C(O)Me (12), and CO2R [R = H (13) Et (14)] was synthesized (some representatives for the first time) and subjected to spectroscopic (IR, NMR, UV-vis, MS) and electrochemical study. In electron -impact mass spectra, all alkynes fragment via processes typical for the fe rrocene skeleton and the substituent Y. Besides, the molecular ions of alky nes 1-3 decompose by a loss of {FeH2} affording likely a Y-substituted fulv ene as the result of a cyclopentadienyl-ring transfer. The carbonyl group c ontaining alkynes 11-14 tend to fragment so that ions isobaric with 1(.+) a re produced. Similarly, the fragmentation of alcohol 10 appears as a superp osition of fragmentation pathways due to Ph2CO.+ and 1(.+). In cyclic volta mmograms, all alkynes exhibit one-electron reversible wave of the ferrocene /ferrocenium couple, whose redox potential correlates linearly with Hammett sigma (P) constants, A similar correlation with inductive sigma (1) consta nts is less pronounced due to neglecting resonance effects. An influence of the triple bond spacer between the substituent Y and the ferrocene unit is discussed. (C) 2001 Elsevier Science B.V. All rights reserved.