Effect of an S1/S0 Conical Intersection on the Chemistry of Nitramide in Its Ground State. A Comparative CASPT2 Study of the Nitro-Nitrite Isomerization Reactions in Nitramide and Nitromethane
The potential energy surfaces for the dissociation of nitramide (NH2NO2 → NH2 + NO2) and nitromethane (CH3NO2 → CH3 + NO2) and the nitro-nitrite rearrangement of these nitrocompounds (RNO2 → RONO) as well as the dissociations of the nitrite isomers (RONO → RO + NO) have been studied with the second-...
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| Veröffentlicht in: | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2006-07, Vol.110 (26), p.8221-8226 |
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| container_title | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory |
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| creator | Soto, Juan Arenas, Juan F Otero, Juan C Peláez, Daniel |
| description | The potential energy surfaces for the dissociation of nitramide (NH2NO2 → NH2 + NO2) and nitromethane (CH3NO2 → CH3 + NO2) and the nitro-nitrite rearrangement of these nitrocompounds (RNO2 → RONO) as well as the dissociations of the nitrite isomers (RONO → RO + NO) have been studied with the second-order multiconfigurational perturbation theory (CASPT2) by computation of numerical energy gradients for stationary points. It is found that multiconfigurational methods [CASPT2 and complete active space SCF (CAS−SCF)] predict that the isomerization of nitramide to NH2ONO occurs in a two-step mechanism: (i) NH2NO2 → NH2 + NO2 and (ii) NH2 + NO2 → NH2ONO, the second step involving surmounting an activation barrier. Contrastingly, Hartree−Fock based approaches give isomerization as a one-step reaction. Additionally, both mono- and multiconfigurational methods predict that nitro-nitrite rearrangement of CH3NO2 is a one-step process. The difference in the reaction mechanisms of these two isoelectronic molecules arises from the presence of an S1/S0 conical intersection in nitramide which is absent in nitromethane. |
| doi_str_mv | 10.1021/jp0617219 |
| format | Article |
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A Comparative CASPT2 Study of the Nitro-Nitrite Isomerization Reactions in Nitramide and Nitromethane</title><source>ACS Publications</source><creator>Soto, Juan ; Arenas, Juan F ; Otero, Juan C ; Peláez, Daniel</creator><creatorcontrib>Soto, Juan ; Arenas, Juan F ; Otero, Juan C ; Peláez, Daniel</creatorcontrib><description>The potential energy surfaces for the dissociation of nitramide (NH2NO2 → NH2 + NO2) and nitromethane (CH3NO2 → CH3 + NO2) and the nitro-nitrite rearrangement of these nitrocompounds (RNO2 → RONO) as well as the dissociations of the nitrite isomers (RONO → RO + NO) have been studied with the second-order multiconfigurational perturbation theory (CASPT2) by computation of numerical energy gradients for stationary points. It is found that multiconfigurational methods [CASPT2 and complete active space SCF (CAS−SCF)] predict that the isomerization of nitramide to NH2ONO occurs in a two-step mechanism: (i) NH2NO2 → NH2 + NO2 and (ii) NH2 + NO2 → NH2ONO, the second step involving surmounting an activation barrier. Contrastingly, Hartree−Fock based approaches give isomerization as a one-step reaction. Additionally, both mono- and multiconfigurational methods predict that nitro-nitrite rearrangement of CH3NO2 is a one-step process. The difference in the reaction mechanisms of these two isoelectronic molecules arises from the presence of an S1/S0 conical intersection in nitramide which is absent in nitromethane.</description><identifier>ISSN: 1089-5639</identifier><identifier>EISSN: 1520-5215</identifier><identifier>DOI: 10.1021/jp0617219</identifier><identifier>PMID: 16805510</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><ispartof>The journal of physical chemistry. 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A Comparative CASPT2 Study of the Nitro-Nitrite Isomerization Reactions in Nitramide and Nitromethane</title><title>The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory</title><addtitle>J. Phys. Chem. A</addtitle><description>The potential energy surfaces for the dissociation of nitramide (NH2NO2 → NH2 + NO2) and nitromethane (CH3NO2 → CH3 + NO2) and the nitro-nitrite rearrangement of these nitrocompounds (RNO2 → RONO) as well as the dissociations of the nitrite isomers (RONO → RO + NO) have been studied with the second-order multiconfigurational perturbation theory (CASPT2) by computation of numerical energy gradients for stationary points. It is found that multiconfigurational methods [CASPT2 and complete active space SCF (CAS−SCF)] predict that the isomerization of nitramide to NH2ONO occurs in a two-step mechanism: (i) NH2NO2 → NH2 + NO2 and (ii) NH2 + NO2 → NH2ONO, the second step involving surmounting an activation barrier. Contrastingly, Hartree−Fock based approaches give isomerization as a one-step reaction. Additionally, both mono- and multiconfigurational methods predict that nitro-nitrite rearrangement of CH3NO2 is a one-step process. The difference in the reaction mechanisms of these two isoelectronic molecules arises from the presence of an S1/S0 conical intersection in nitramide which is absent in nitromethane.</description><issn>1089-5639</issn><issn>1520-5215</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><recordid>eNpFUctu1DAUtRCIPmDBDyBvYJfWduJHlqOhlEEFKjKIpXWT3Gg8TJLBdhDt1_FpODOlSJZt6bzscwl5xdkFZ4JfbvdMcS14-YSccilYJgWXT9OdmTKTKi9PyFkIW8YYz0XxnJxwZZiUnJ2SP1ddh02kY0dhoBW_rBhdjoNrYEdXQ0QfEurGgaYVN0iXG-xdiP5uVnx20UPvWqRuoKsY6LUfp6GlVYSIF3SRnPo9eIjuV1Iuqtu1SNjUHsSz22wwZvPuItJVGHv07h4OgV8RDslhNv-fBMn_IOsxbmDAF-RZB7uALx_Oc_Lt_dV6-SG7-XK9Wi5uMuCliBmYTjayE0JDbTrdKt3UButSFRJ4jkJ3osCiabjJW1PWTLWiSIVqrQB03pT5OXl79N378eeEIdrUQ4O7XXrDOAWrjDRKMpOIrx-IU91ja_fe9eDv7L_OEyE7ElKP-PsRB__DKp1rade3lTX63cdP3420IvHfHPnQBLsdJz-kf1rO7Dx7-zj7_C9EmJ6U</recordid><startdate>20060706</startdate><enddate>20060706</enddate><creator>Soto, Juan</creator><creator>Arenas, Juan F</creator><creator>Otero, Juan C</creator><creator>Peláez, Daniel</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>NPM</scope><scope>7X8</scope></search><sort><creationdate>20060706</creationdate><title>Effect of an S1/S0 Conical Intersection on the Chemistry of Nitramide in Its Ground State. 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A</addtitle><date>2006-07-06</date><risdate>2006</risdate><volume>110</volume><issue>26</issue><spage>8221</spage><epage>8226</epage><pages>8221-8226</pages><issn>1089-5639</issn><eissn>1520-5215</eissn><abstract>The potential energy surfaces for the dissociation of nitramide (NH2NO2 → NH2 + NO2) and nitromethane (CH3NO2 → CH3 + NO2) and the nitro-nitrite rearrangement of these nitrocompounds (RNO2 → RONO) as well as the dissociations of the nitrite isomers (RONO → RO + NO) have been studied with the second-order multiconfigurational perturbation theory (CASPT2) by computation of numerical energy gradients for stationary points. It is found that multiconfigurational methods [CASPT2 and complete active space SCF (CAS−SCF)] predict that the isomerization of nitramide to NH2ONO occurs in a two-step mechanism: (i) NH2NO2 → NH2 + NO2 and (ii) NH2 + NO2 → NH2ONO, the second step involving surmounting an activation barrier. Contrastingly, Hartree−Fock based approaches give isomerization as a one-step reaction. Additionally, both mono- and multiconfigurational methods predict that nitro-nitrite rearrangement of CH3NO2 is a one-step process. The difference in the reaction mechanisms of these two isoelectronic molecules arises from the presence of an S1/S0 conical intersection in nitramide which is absent in nitromethane.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>16805510</pmid><doi>10.1021/jp0617219</doi><tpages>6</tpages></addata></record> |
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| title | Effect of an S1/S0 Conical Intersection on the Chemistry of Nitramide in Its Ground State. A Comparative CASPT2 Study of the Nitro-Nitrite Isomerization Reactions in Nitramide and Nitromethane |
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