Unveiling the Stereoselectivity and Regioselectivity of the [3+2] Cycloaddition Reaction between N-methyl-C-4-methylphenyl-nitrone and 2-Propynamide from a MEDT Perspective

[3+2] cycloaddition reactions play a crucial role in synthesizing complex organic molecules and have significant applications in drug discovery and materials science. In this study, the [3+2] cycloaddition (32CA) reactions of N-methyl-C-4-methyl phenyl-nitrone and 2-propynamide , which have not been...

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Veröffentlicht in:	International journal of molecular sciences 2023-05, Vol.24 (10), p.9102
Hauptverfasser:	Salih, Sabir A Mohammed, Basheer, Huda A, de Julián-Ortiz, Jesus Vicente, Mohammad-Salim, Haydar A
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Sprache:	eng
Schlagworte:	Analysis Basins Carbon Chemical bonds Covalent bonds Cycloaddition Cycloaddition Reaction Density functional theory Density functionals Electron density Electrons Energy Evolution Exothermic reactions Explosives Localization Models, Molecular Nitrogen Oxides Organic chemistry Reagents Regioselectivity Stereoselectivity
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description	[3+2] cycloaddition reactions play a crucial role in synthesizing complex organic molecules and have significant applications in drug discovery and materials science. In this study, the [3+2] cycloaddition (32CA) reactions of N-methyl-C-4-methyl phenyl-nitrone and 2-propynamide , which have not been extensively studied before, were investigated using molecular electron density theory (MEDT) at the B3LYP/6-311++G(d,p) level of theory. According to an electron localization function (ELF) study, N-methyl-C-4-methyl phenyl-nitrone is a zwitterionic species with no pseudoradical or carbenoid centers. Conceptual density functional theory (CDFT) indices were used to predict the global electronic flux from the strong nucleophilic N-methyl-C-4-methyl phenylnitrone to the electrophilic 2-propynamide functions. The 32CA reactions proceeded through two pairs of stereo- and regioisomeric reaction pathways to generate four different products: , , , and . The reaction pathways were irreversible owing to their exothermic characters: -136.48, -130.08, -130.99, and -140.81 kJ mol , respectively. The enthalpy of the 32CA reaction leading to the formation of cycloadduct was lower compared with the other path owing to a slight increase in its polar character, observed through the global electron density transfer (GEDT) during the transition states and along the reaction path. A bonding evolution theory (BET) analysis showed that these 32CA reactions proceed through the coupling of pseudoradical centers, and the formation of new C-C and C-O covalent bonds did not begin in the transition states.
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The enthalpy of the 32CA reaction leading to the formation of cycloadduct was lower compared with the other path owing to a slight increase in its polar character, observed through the global electron density transfer (GEDT) during the transition states and along the reaction path. 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In this study, the [3+2] cycloaddition (32CA) reactions of N-methyl-C-4-methyl phenyl-nitrone and 2-propynamide , which have not been extensively studied before, were investigated using molecular electron density theory (MEDT) at the B3LYP/6-311++G(d,p) level of theory. According to an electron localization function (ELF) study, N-methyl-C-4-methyl phenyl-nitrone is a zwitterionic species with no pseudoradical or carbenoid centers. Conceptual density functional theory (CDFT) indices were used to predict the global electronic flux from the strong nucleophilic N-methyl-C-4-methyl phenylnitrone to the electrophilic 2-propynamide functions. The 32CA reactions proceeded through two pairs of stereo- and regioisomeric reaction pathways to generate four different products: , , , and . The reaction pathways were irreversible owing to their exothermic characters: -136.48, -130.08, -130.99, and -140.81 kJ mol , respectively. 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In this study, the [3+2] cycloaddition (32CA) reactions of N-methyl-C-4-methyl phenyl-nitrone and 2-propynamide , which have not been extensively studied before, were investigated using molecular electron density theory (MEDT) at the B3LYP/6-311++G(d,p) level of theory. According to an electron localization function (ELF) study, N-methyl-C-4-methyl phenyl-nitrone is a zwitterionic species with no pseudoradical or carbenoid centers. Conceptual density functional theory (CDFT) indices were used to predict the global electronic flux from the strong nucleophilic N-methyl-C-4-methyl phenylnitrone to the electrophilic 2-propynamide functions. The 32CA reactions proceeded through two pairs of stereo- and regioisomeric reaction pathways to generate four different products: , , , and . The reaction pathways were irreversible owing to their exothermic characters: -136.48, -130.08, -130.99, and -140.81 kJ mol , respectively. The enthalpy of the 32CA reaction leading to the formation of cycloadduct was lower compared with the other path owing to a slight increase in its polar character, observed through the global electron density transfer (GEDT) during the transition states and along the reaction path. A bonding evolution theory (BET) analysis showed that these 32CA reactions proceed through the coupling of pseudoradical centers, and the formation of new C-C and C-O covalent bonds did not begin in the transition states.</abstract><cop>Switzerland</cop><pub>MDPI AG</pub><pmid>37240445</pmid><doi>10.3390/ijms24109102</doi><orcidid>https://orcid.org/0000-0001-9403-8744</orcidid><orcidid>https://orcid.org/0009-0000-2692-180X</orcidid><orcidid>https://orcid.org/0000-0002-9600-3446</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Analysis Basins Carbon Chemical bonds Covalent bonds Cycloaddition Cycloaddition Reaction Density functional theory Density functionals Electron density Electrons Energy Evolution Exothermic reactions Explosives Localization Models, Molecular Nitrogen Oxides Organic chemistry Reagents Regioselectivity Stereoselectivity
title	Unveiling the Stereoselectivity and Regioselectivity of the [3+2] Cycloaddition Reaction between N-methyl-C-4-methylphenyl-nitrone and 2-Propynamide from a MEDT Perspective
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