TY - JOUR
T1 - Ferrocenium Ions as Catalysts: Decomposition Studies and Counteranion Influence on Catalytic Activity
AU - Jurkowski, Kellsie
AU - Bauer, Eike
N1 - Synthesis 2021; 53(11): 2007-2014DOI: 10.1055/s-0040-1705992 Financial support from the University of Missouri-St. Louis (Research Award) is gratefully acknowledged. We would like to thank the National Science Foundation for the purchase of the NMR spectrometer (CHE-9974801). Catalyst decomposition has a negative effect on catalytic activity, and knowledge of decomposition pathways can assist with catalyst development.
PY - 2021
Y1 - 2021
N2 - Catalyst decomposition has a negative effect on catalytic activity, and knowledge of decomposition pathways can assist with catalyst development. Ferrocenium cations have been employed as catalysts in a number of organic transformations, and we investigated the stability of a number of ferrocenium salts in solution. The observed rate decomposition constants for [Fc]Cl, [Fc]PF 6 , [Fc]BF 4 , [Fc]CSA [Fc = ferrocenium, CSA = camphor-10-sulfonate (β)], [AcFc]SbF 6 , (AcFc = acetylated ferrocene), and [FcB(OH) 2 ]SbF 6 [FcB(OH) 2 = ferrocenylboronic acid] were determined in CH 2 Cl 2 solution by time-resolved UV-vis spectroscopy. The rate decomposition constants depended on the nature of the counterion, with [Fc]Cl being the most stable complex in solution. The decomposition rate constants dropped by roughly an order of magnitude in most cases when the experiments were performed in nitrogenated solvent, demonstrating that the decomposition is mainly an oxidative process. The cosolvent HFIP (1,1,1,3,3,3-hexafluoropropan-2-ol) slowed the decomposition of the ferrocenium cations as well. Many catalytic or stoichiometric reactions of ferrocenium cations are performed with alcohols; we determined that hexan-1-ol is decomposed over the course of 16 hours, but not oxidized in the presence of a ferrocenium cation. Finally, the different ferrocenium cations were employed in a test reaction to determine catalytic activity. The nucleophilic substitution of hydroxyl groups in a tertiary propargylic alcohol by an alcohol is catalyzed by all complexes, and, again, a counterion dependency of the catalytic activity was observed. Also, HFIP increases the catalytic activity of the ferrocenium cations. The research has importance in the development of ferrocenium-based catalyst systems, because changes in the counterion as well as the architecture of the ferrocenium cation have an influence on stability and catalytic activity.
AB - Catalyst decomposition has a negative effect on catalytic activity, and knowledge of decomposition pathways can assist with catalyst development. Ferrocenium cations have been employed as catalysts in a number of organic transformations, and we investigated the stability of a number of ferrocenium salts in solution. The observed rate decomposition constants for [Fc]Cl, [Fc]PF 6 , [Fc]BF 4 , [Fc]CSA [Fc = ferrocenium, CSA = camphor-10-sulfonate (β)], [AcFc]SbF 6 , (AcFc = acetylated ferrocene), and [FcB(OH) 2 ]SbF 6 [FcB(OH) 2 = ferrocenylboronic acid] were determined in CH 2 Cl 2 solution by time-resolved UV-vis spectroscopy. The rate decomposition constants depended on the nature of the counterion, with [Fc]Cl being the most stable complex in solution. The decomposition rate constants dropped by roughly an order of magnitude in most cases when the experiments were performed in nitrogenated solvent, demonstrating that the decomposition is mainly an oxidative process. The cosolvent HFIP (1,1,1,3,3,3-hexafluoropropan-2-ol) slowed the decomposition of the ferrocenium cations as well. Many catalytic or stoichiometric reactions of ferrocenium cations are performed with alcohols; we determined that hexan-1-ol is decomposed over the course of 16 hours, but not oxidized in the presence of a ferrocenium cation. Finally, the different ferrocenium cations were employed in a test reaction to determine catalytic activity. The nucleophilic substitution of hydroxyl groups in a tertiary propargylic alcohol by an alcohol is catalyzed by all complexes, and, again, a counterion dependency of the catalytic activity was observed. Also, HFIP increases the catalytic activity of the ferrocenium cations. The research has importance in the development of ferrocenium-based catalyst systems, because changes in the counterion as well as the architecture of the ferrocenium cation have an influence on stability and catalytic activity.
KW - catalyst decomposition
KW - ferrocenium
KW - homogeneous catalysis
KW - transition metal Lewis acids
UR - https://doi.org/10.1055/S-0040-1705992
U2 - 10.1055/S-0040-1705992
DO - 10.1055/S-0040-1705992
M3 - Article
VL - 53
JO - Synthesis
JF - Synthesis
ER -