Cp∗Co(CO)I2 as Catalyst for Ortho-C,H Activation at Ferrocene: ODG-Dependent Preference for 2-Mono- or 2,5-Dialkenylation

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OriginalspracheEnglisch
Seiten (von - bis)2095-2110
Seitenumfang16
FachzeitschriftOrganometallics
Jahrgang37
Ausgabenummer13
PublikationsstatusVeröffentlicht - 26 Juni 2018

Abstract

The catalytic ortho-alkenylation at ferrocene has been investigated with Cp∗Co(CO)I2 as the catalyst for some nitrogen ortho-directing groups (ODGs). The reaction conditions were optimized starting from 2-ferrocenylpyridine, and a number of terminal arylethynes gave preferentially the 2,5-dialkenylation products in up to 94% yield. In most cases the 2-monoalkenylation products were not obtained, although there are exceptions with formyl- and thioacetyl-substituted arylethynes and ferrocenylethyne. When 1-phenylpropyne was used, the dialkenylation took place with high selectivity. Use of 1-ferrocenylisoquinoline resulted in moderate yields with poor selectivity for the mono- or dialkenylation. With N,N-dimethylferrocenylcarboxamide, however, very high selectivity for monoalkenylation was observed. Products were obtained in up to 90% yield; in only one case the dialkenylation was product observed in trace amounts. All products were characterized spectroscopically, including four crystal structure analyses. The results are explained by the steric hindrance of the N,N-diemethylcarbamoyl ODG when the conformation necessary for a second alkenylation is adopted. In summary, ODGs for the selective cobalt-catalyzed mono- or dialkenylation have been identified.

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Cp∗Co(CO)I2 as Catalyst for Ortho-C,H Activation at Ferrocene: ODG-Dependent Preference for 2-Mono- or 2,5-Dialkenylation. / Schmiel, David; Gathy, Robert; Butenschön, Holger.
in: Organometallics, Jahrgang 37, Nr. 13, 26.06.2018, S. 2095-2110.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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abstract = "The catalytic ortho-alkenylation at ferrocene has been investigated with Cp∗Co(CO)I2 as the catalyst for some nitrogen ortho-directing groups (ODGs). The reaction conditions were optimized starting from 2-ferrocenylpyridine, and a number of terminal arylethynes gave preferentially the 2,5-dialkenylation products in up to 94% yield. In most cases the 2-monoalkenylation products were not obtained, although there are exceptions with formyl- and thioacetyl-substituted arylethynes and ferrocenylethyne. When 1-phenylpropyne was used, the dialkenylation took place with high selectivity. Use of 1-ferrocenylisoquinoline resulted in moderate yields with poor selectivity for the mono- or dialkenylation. With N,N-dimethylferrocenylcarboxamide, however, very high selectivity for monoalkenylation was observed. Products were obtained in up to 90% yield; in only one case the dialkenylation was product observed in trace amounts. All products were characterized spectroscopically, including four crystal structure analyses. The results are explained by the steric hindrance of the N,N-diemethylcarbamoyl ODG when the conformation necessary for a second alkenylation is adopted. In summary, ODGs for the selective cobalt-catalyzed mono- or dialkenylation have been identified.",
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T1 - Cp∗Co(CO)I2 as Catalyst for Ortho-C,H Activation at Ferrocene

T2 - ODG-Dependent Preference for 2-Mono- or 2,5-Dialkenylation

AU - Schmiel, David

AU - Gathy, Robert

AU - Butenschön, Holger

PY - 2018/6/26

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N2 - The catalytic ortho-alkenylation at ferrocene has been investigated with Cp∗Co(CO)I2 as the catalyst for some nitrogen ortho-directing groups (ODGs). The reaction conditions were optimized starting from 2-ferrocenylpyridine, and a number of terminal arylethynes gave preferentially the 2,5-dialkenylation products in up to 94% yield. In most cases the 2-monoalkenylation products were not obtained, although there are exceptions with formyl- and thioacetyl-substituted arylethynes and ferrocenylethyne. When 1-phenylpropyne was used, the dialkenylation took place with high selectivity. Use of 1-ferrocenylisoquinoline resulted in moderate yields with poor selectivity for the mono- or dialkenylation. With N,N-dimethylferrocenylcarboxamide, however, very high selectivity for monoalkenylation was observed. Products were obtained in up to 90% yield; in only one case the dialkenylation was product observed in trace amounts. All products were characterized spectroscopically, including four crystal structure analyses. The results are explained by the steric hindrance of the N,N-diemethylcarbamoyl ODG when the conformation necessary for a second alkenylation is adopted. In summary, ODGs for the selective cobalt-catalyzed mono- or dialkenylation have been identified.

AB - The catalytic ortho-alkenylation at ferrocene has been investigated with Cp∗Co(CO)I2 as the catalyst for some nitrogen ortho-directing groups (ODGs). The reaction conditions were optimized starting from 2-ferrocenylpyridine, and a number of terminal arylethynes gave preferentially the 2,5-dialkenylation products in up to 94% yield. In most cases the 2-monoalkenylation products were not obtained, although there are exceptions with formyl- and thioacetyl-substituted arylethynes and ferrocenylethyne. When 1-phenylpropyne was used, the dialkenylation took place with high selectivity. Use of 1-ferrocenylisoquinoline resulted in moderate yields with poor selectivity for the mono- or dialkenylation. With N,N-dimethylferrocenylcarboxamide, however, very high selectivity for monoalkenylation was observed. Products were obtained in up to 90% yield; in only one case the dialkenylation was product observed in trace amounts. All products were characterized spectroscopically, including four crystal structure analyses. The results are explained by the steric hindrance of the N,N-diemethylcarbamoyl ODG when the conformation necessary for a second alkenylation is adopted. In summary, ODGs for the selective cobalt-catalyzed mono- or dialkenylation have been identified.

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