A Theoretical Investigation on the Regioselectivity of the Diels–Alder Cycloaddition of 9-(Methoxymethyl) Anthracene And Citraconic Anhydride


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Abstract

The mechanism and regioselectivity of the Diels–Alder cycloaddition reaction between 9- (methoxymethyl)anthracene and citraconic anhydride are explored using the valuable density functional theory (DFT) methods. The solvent effects are considered using the polarizable continuum model in the toluene solution. Due to a small electrophilicity difference of the reactants, the reaction has a low polar character. The investigated Diels–Alder reaction has a normal electron demand character. Depending on the respective position of substituents in the cycloadducts (head-to-head (ortho) or head-to-tail (meta)) the reaction can be progressed via two different pathways: ortho and meta. Due to a very high activation energy, the meta pathway is rejected. The product of the ortho pathway is demonstrated to be the final product of the reaction in the toluene solution. The obtained DFT results are in good agreement with the experimental results.

About the authors

A. Bazian

Department of Chemistry, Mashhad Branch; Young Researchers and Elite Club, Mashhad Branch

Email: beiramabadi@yahoo.com
Iran, Islamic Republic of, Mashhad; Mashhad

S. A. Beyramabadi

Department of Chemistry, Mashhad Branch

Author for correspondence.
Email: beiramabadi@yahoo.com
Iran, Islamic Republic of, Mashhad

A. Davoodnia

Department of Chemistry, Mashhad Branch

Email: beiramabadi@yahoo.com
Iran, Islamic Republic of, Mashhad

M. R. Bozorgmehr

Department of Chemistry, Mashhad Branch; Young Researchers and Elite Club, Mashhad Branch

Email: beiramabadi@yahoo.com
Iran, Islamic Republic of, Mashhad; Mashhad

M. Pordel

Department of Chemistry, Mashhad Branch

Email: beiramabadi@yahoo.com
Iran, Islamic Republic of, Mashhad

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