Molecules (Mar 2021)

Effect of Substituents of Cerium Pyrazolates and Pyrrolates on Carbon Dioxide Activation

  • Uwe Bayer,
  • Adrian Jenner,
  • Jonas Riedmaier,
  • Cäcilia Maichle-Mössmer,
  • Reiner Anwander

DOI
https://doi.org/10.3390/molecules26071957
Journal volume & issue
Vol. 26, no. 7
p. 1957

Abstract

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Homoleptic ceric pyrazolates (pz) Ce(RR’pz)4 (R = R’ = tBu; R = R’ = Ph; R = tBu, R’ = Me) were synthesized by the protonolysis reaction of Ce[N(SiHMe2)2]4 with the corresponding pyrazole derivative. The resulting complexes were investigated in their reactivity toward CO2, revealing a significant influence of the bulkiness of the substituents on the pyrazolato ligands. The efficiency of the CO2 insertion was found to increase in the order of tBu2pz 2pz tBuMepz 2pz. For comparison, the pyrrole-based ate complexes [Ce2(pyr)6(µ-pyr)2(thf)2][Li(thf)4]2 (pyr = pyrrolato) and [Ce(cbz)4(thf)2][Li(thf)4] (cbz = carbazolato) were obtained via protonolysis of the cerous ate complex Ce[N(SiHMe2)2]4Li(thf) with pyrrole and carbazole, respectively. Treatment of the pyrrolate/carbazolate complexes with CO2 seemed promising, but any reversibility could not be observed.

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