Self-Assembly of
4,4′-Linked Dipyrromethanes
from Unconventional ReactantsPropargylamines,
2‑(Vinyloxy)ethyl Isothiocyanate, and Alkylating Agents under
Basic Conditions
posted on 2023-12-28, 20:13authored byNina A. Nedolya, Ol’ga A. Tarasova, Alexander I. Albanov, Lyudmila V. Klyba, Boris A. Trofimov
Self-assembly of 4,4′-linked dipyrromethanes from
2-(vinyloxy)ethyl
isothiocyanate, tertiary propargylamines, and alkylating agents has
been discovered. The plausible reaction mechanism, the major stages
of which have been confirmed experimentally, includes (1) the lithiation
of propargylamine (with n-BuLi); (2) the formation
of lithium N-[2-(vinyloxy)ethyl]but-2-ynimidothioate
(product of the addition of monolithiated propargylamine to isothiocyanate);
(3) isomerization of the latter in the corresponding allenylimidothioate
(under the action of the t-BuOK/t-BuOH system); (4) low-temperature (<15 °C) intramolecular
cyclization of the latter into potassium N-(5-amino-2-thienyl)-N-[2-(vinyloxy)ethyl]amide; (5) the base-induced cleavage
of the C–O bond of the N-[2-(vinyloxy)ethyl]
group and removal of vinyloxide-anion leading to acetaldehyde; (6)
interaction of acetaldehyde with two molecules of N-(5-amino-2-thienyl)-N-[2-(vinyloxy)ethyl]amide-anion
resulting in dithienomethane N-anionic intermediate; (7) recyclization
of the latter into dipyrromethane S-anionic intermediate. Final S-alkylation
affords synthetically challenging 4,4′-dipyrromethanes in a
yield of 22–51%. The whole process is carried out in a single
synthetic operation in a very short time (∼10–15 min,
excluding alkylation time).