Mechanisms of Formation of Hemiacetals: Intrinsic Reactivity Analysis
link https://doi.org/10.1021/jp304495fget_appMechanisms of formation of hemiacetals - Intrinsic reactivity analysis.pdf
account_box Azofra, Luis Miguelaccount_box Alkorta, Ibonaccount_box Elguero, Joseaccount_box Toro Labbe, Alejandro
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The reaction mechanism of the hemiacetal formation from formaldehyde and methanol has been studied theoretically at the B3LYP/6-311+ +G(d,p) level. In addition to the study of the reaction between the isolated reactants, three different kinds of catalysis have been explored. The first one examines the use of assistants, especially bridging water molecules, in the proton transfer process. The second one attempts to increase the local electrophilicity of the carbon atom in formaldehyde with the presence of a Bronsted acid (H+ or H3O+). The last one considers the combined effect of both catalytic strategies. The reaction force, the electronic chemical potential, and the reaction electronic flux have been characterized for the reaction path in each case. In general, it has been found that structural rearrangements represent an important energetic penalty during the activation process. The barriers for the reactions catalyzed by Bronsted acids show a high percentage of electronic reorganization contribution. The catalytic effects for the reactions assisted by water molecules are due to a reduction of the strain The reaction that includes both acid catalysis and proton assistance transfer shows the lowest in the transition state structures. energy barrier (25.0 kJ mol(-1)).
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| Autor | Azofra, Luis Miguel Alkorta, Ibon Elguero, Jose Toro Labbe, Alejandro |
| Título | Mechanisms of Formation of Hemiacetals: Intrinsic Reactivity Analysis |
| Revista | JOURNAL OF PHYSICAL CHEMISTRY A |
| ISSN | 1089-5639 |
| ISSN electrónico | 1520-5215 |
| Volumen | 116 |
| Número de publicación | 31 |
| Página inicio | 8250 |
| Página final | 8259 |
| Fecha de publicación | 2012 |
| Resumen | The reaction mechanism of the hemiacetal formation from formaldehyde and methanol has been studied theoretically at the B3LYP/6-311+ +G(d,p) level. In addition to the study of the reaction between the isolated reactants, three different kinds of catalysis have been explored. The first one examines the use of assistants, especially bridging water molecules, in the proton transfer process. The second one attempts to increase the local electrophilicity of the carbon atom in formaldehyde with the presence of a Bronsted acid (H+ or H3O+). The last one considers the combined effect of both catalytic strategies. The reaction force, the electronic chemical potential, and the reaction electronic flux have been characterized for the reaction path in each case. In general, it has been found that structural rearrangements represent an important energetic penalty during the activation process. The barriers for the reactions catalyzed by Bronsted acids show a high percentage of electronic reorganization contribution. The catalytic effects for the reactions assisted by water molecules are due to a reduction of the strain The reaction that includes both acid catalysis and proton assistance transfer shows the lowest in the transition state structures. energy barrier (25.0 kJ mol(-1)). |
| Derechos | acceso restringido |
| Agencia financiadora | Ministerio de Ciencia e Innovacion Comunidad Autonoma de Madrid (Project MADRISO-LAR2) FONDECYT |
| DOI | 10.1021/jp304495f |
| Editorial | AMER CHEMICAL SOC |
| Enlace | |
| Id de publicación en Pubmed | MEDLINE:22784613 |
| Id de publicación en WoS | WOS:000307264300017 |
| Paginación | 10 páginas |
| Palabra clave | REACTION ELECTRONIC FLUX DOUBLE PROTON-TRANSFER REACTION FORCE SUGARS MUTAROTATION CHEMICAL-REACTIONS BASE CATALYSIS ACID DENSITY FORMALDEHYDE ENERGY |
| Tema ODS | 03 Good Health and Well-being |
| Tema ODS español | 03 Salud y bienestar |
| Tipo de documento | artículo |