Jacob D. Porter scite author profile

Bifunctional catalysts containing discrete metal pi-acid and amine sites were designed and investigated for the direct intermolecular addition of aldehydes and ketones to unactivated alkynes. Despite prior reports of intramolecular (Conia-ene-type) reactions and confirmation here that Cu(I)-based catalysts are effective, NMR studies indicated that a dual catalytic approach using separate amine and pi-acid catalysts may not be feasible for intermolecular reactions due to undesirable enamine competition with alkynes for metal complexation. Bifunctional precatalysts were designed with tridentate ligands and potentially hemilabile heterocyclic spacers, expected to be suitable for the binding of pi-acidic metals such as copper (I) and silver (I). The structures of the designed catalysts were computed using density functional theory (DFT), and the relative energies of putative catalytic intermediates were estimated. The calculated free energy changes upon carbon–carbon bond formation were used to prioritize catalyst designs, and several modular precatalysts were selected and prepared, with a focus on thiazole-containing systems synthesized via a 9-step sequence. Catalysts were screened for the direct addition of aldehydes and ketones to several internal and terminal alkynes. The precatalysts were combined with several different transition metal salts, and their structures studied with <sup>1</sup>H NMR and x-ray crystallography. Despite the lack of observed intermolecular reactions, DFT calculations of putative catalyst intermediates appears to be a promising strategy for the design and prioritization of bifunctional catalysts for C–C bond formation, and the combined results suggest that more rigid complexes may be necessary to catalyze direct intermolecular additions of aldehydes/ketones to alkynes.

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Modified synthesis of the peptidomimetic natriuretic peptide receptor-C antagonist M372049

Porter

Lindeman

Dockendorff

2020

Tetrahedron Letters

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DFT-assisted design and evaluation of bifunctional copper(I) catalysts for the direct intermolecular addition of aldehydes and ketones to alkynes

et al. 2018

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Bifunctional catalysts containing discrete metal pi-acid and amine sites were designed and investigated for the direct intermolecular addition of aldehydes and ketones to unactivated alkynes. Copper(I)-based catalystswere prioritized based on intramolecular (Conia-ene type) reactions, and complexes were designed with tridentate ligands and potentially hemilabile heterocyclic spacers. The structures of the designed catalysts were computed using density functional theory (DFT), and the relative energies of putative catalytic intermediates were estimated and used to prioritize catalyst designs. Novel bifunctional precatalysts containing a thiazole spacer were synthesized via a 9-step sequence and combined with transition metals before screening for the direct addition of aldehydes and ketones to several internal and terminal alkynes. Despite the lack of desired intermolecular reactions, DFT calculations of putative catalyst intermediates appears to be a promising strategy for the design and prioritization of bifunctional catalysts for C C bond formation.

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A Novel, Unusual Acid Catalyzed Route to Substituted 1,4-dihydropyridine via Double Decarboxylation

Porter¹,

Radomski²,

Seagren³

et al. 2011

LOC

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Jacob D. Porter

Multifunctional heterocyclic scaffolds for hybrid Lewis acid/Lewis base catalysis of carbon–carbon bond formation

DFT-Assisted Design and Evaluation of Bifunctional copper(I) Catalysts for the Direct Intermolecular Addition of Aldehydes and Ketones to Alkynes

Modified synthesis of the peptidomimetic natriuretic peptide receptor-C antagonist M372049

DFT-assisted design and evaluation of bifunctional copper(I) catalysts for the direct intermolecular addition of aldehydes and ketones to alkynes

A Novel, Unusual Acid Catalyzed Route to Substituted 1,4-dihydropyridine via Double Decarboxylation

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