Hydrosilylation of olefins activated on highly Lewis-acidic calcium cation

Magdalena Grochowska-Tatarczak; Kacper Koteras; Krzysztof Kazimierczuk; Przemysław Jan Malinowski

doi:10.1002/chem.202401322

Hydrosilylation of olefins activated on highly Lewis-acidic calcium cation

Chemistry. 2024 Apr 25:e202401322. doi: 10.1002/chem.202401322. Online ahead of print.

Authors

Magdalena Grochowska-Tatarczak¹, Kacper Koteras¹, Krzysztof Kazimierczuk¹, Przemysław Jan Malinowski²

Affiliations

¹ University of Warsaw, Centre of New Technologies, Banacha 2c, Warsaw, POLAND.
² University of Warsaw: Uniwersytet Warszawski, Centre of New Technologies, Banacha 2c, 02-089, Warsaw, POLAND.

PMID: 38660917
DOI: 10.1002/chem.202401322

Abstract

The report introduces simple yet highly reactive calcium salt, Ca[Al(ORF)4]2 (RF = C(CF3)3), 1, which effectively catalyses olefin hydrosilylation through an unusual mechanism involving the activation of the alkene molecule. Upon dissolution in o-difluorobenzene (oDFB), 1 forms a highly Lewis acidic [Ca(oDFB)6]2+ complex. Our DFT calculations reveal that fluoride ion affinity is comparable to SbF5. Reactivity tests show that it effectively catalyses the hydrosilylation of olefins with high regioselectivity, also in reactions involving sterically demanding substrates like (iPr)3SiH or tetrasubstituted olefins. Experimental and computational results point to the mechanism where the olefin molecule forms a complex with Ca2+, which significantly facilitates the attack of H-SiR3 on the C=C double bond.

Keywords: Calcium, hydrosilylation, Lewis acid, olefin, weakly coordinating anion.