The present review contains a representative sampling of mechanistic studies, which have appeared in the literature in the last 5 years, on 1,3-dipolar cycloaddition reactions, using DFT calculations. Attention is focused on the mechanistic insights into 1,3-dipoles of propargyl/allenyl type and allyl type such as aza-ylides, nitrile oxides and azomethyne ylides and nitrones, respectively. The important role played by various metal–chiral–ligand complexes and the use of chiral eductors in promoting the site-, regio-, diastereo- and enatioselectivity of the reaction are also outlined.
Chiacchio, M., Legnani, L. (2024). Density Functional Theory calculations: a useful tool to investigate mechanisms of 1,3- dipolar cycloaddition reactions. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 25(2), 1-58 [10.3390/ijms25021298].
Density Functional Theory calculations: a useful tool to investigate mechanisms of 1,3- dipolar cycloaddition reactions
Legnani, L.
2024
Abstract
The present review contains a representative sampling of mechanistic studies, which have appeared in the literature in the last 5 years, on 1,3-dipolar cycloaddition reactions, using DFT calculations. Attention is focused on the mechanistic insights into 1,3-dipoles of propargyl/allenyl type and allyl type such as aza-ylides, nitrile oxides and azomethyne ylides and nitrones, respectively. The important role played by various metal–chiral–ligand complexes and the use of chiral eductors in promoting the site-, regio-, diastereo- and enatioselectivity of the reaction are also outlined.
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