Synthesis and Characterization of Ferrocene Derivatives with Extended Carbocyclic Rings
Explore the functionalization of ferrocene with carbocyclic rings through the synthesis and characterization of biclyclic and tetracyclic derivatives. Electrochemical studies revealed variations in oxidation potentials based on the ring structures. The research focused on developing a method to extend the conjugation of ferrocene for potential applications. Diasteromers were separated and characterized, showcasing the impact of carbocyclic ring extensions on the properties of ferrocene derivatives.
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Synthesis and characterization of ferrocene derivatives with extended carbocyclic rings Stone Naquin,Aaron Naquin, Gwyneth Engeron, Derek Daigle, Mary Lo, Frank Fronczek, and Uttam Pokharel Department of Physical Sciences, Nicholls State University, Thibodaux, LA 70301 Introduction In this project, we explore the functionalization of ferrocene with carbocyclic rings. Although the chemistry of ferrocene and its derivatives have been explored from several decades, the derivatives with extended carbocyclic rings have not been fully studied yet. The long-term goal of our research group is to develop a facile methodology of extending the -conjugation of ferrocene. In this process, we have synthesized various carbocyclic rings to the ferrocene moiety which will be discussed in this presentation. Results Electrochemistry was investigated in dichloromethane using Ag/AgCl as reference electrode, Pt wire as counter electrode and glassy carbon as working electrode The oxidation potential of the iron (II) center reduces with increasing number of methylene groups in the Cp ring Oxidation potential of 9 is less than 8 by 0.22 V. Both complexes exhibited less oxidation potential than ferrocene. The two diasteromers 6 and 7 were separated by silica gel column chromatography using a mixture of ethyl acetate and dichloromethane (2:1) The meso isomer, 6 is light yellow while the racemic mixture, 7 appeared as dark red powder Friedel-Crafts acylation reaction between ferrocene and succinic anhydride gives a mixture of (3-carboxypropionyl)ferrocene, 1 and 1,1 -1-(3-carboxypropionyl)ferrocene, 2 The mixture of these two carboxylic acids are separated by taking advantage of their inequal solubility in hot water. Conclusions We synthesized and fully characterized the bicyclic and tetracyclic derivatives of ferrocene We separated two diasteromers 6 and 7 and assigned their configurations The oxidation potential of the tetramethylene ferrocene derivative is higher than that of octamethylene derivative by 0.22 V. Acknowledgements Financial support Louisiana Board of Regents Department of Chemistry and Physical Sciences, Nicholls State University The diastereomeric mixture of 6 and 7 gave a single product, 9 as a viscous liquid and three multiplets) showing high symmetry in the molecule. The exo and endo hydrogens of the six member rings are diastereotopic giving different signals in NMR References The reduction was monitored by the color change of compounds from deep red to bright yellow. Loss of carbonyl stretching was observed in IR spectroscopy The 1H NMR showed distinctive signals for three CH2 groups 1H NMR of 9 showed only 6 signals (one triplet, one doublet Maharjan, B. L., Ferrocene-Fused Derivatives of Acenes, Tropones, and Thiepins. In PhD dissertation, University of Kentucky: 2015.
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