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Revisiting Markovnikov Addition to Alkenes via Molecular Electrostatic Potential
Molecular electrostatic potentials (MESP) surrounding the π-region of several substituted ethylenes (CH2CHR) have been characterized by locating the most negative-valued point (V min) in that region. The substituents have been classified as electron donating and withdrawing on the basis of the incre...
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| Published in: | Journal of organic chemistry 2001-10, Vol.66 (21), p.6883-6890 |
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| Main Authors: | , , |
| Format: | Article |
| Language: | English |
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| cites | cdi_FETCH-LOGICAL-a349t-25586ba5e26af1db27685bc0c5368cfa6f8857060506646eb6b7ddb89e6a7b7b3 |
| container_end_page | 6890 |
| container_issue | 21 |
| container_start_page | 6883 |
| container_title | Journal of organic chemistry |
| container_volume | 66 |
| creator | Suresh, C. H Koga, Nobuaki Gadre, Shridhar R |
| description | Molecular electrostatic potentials (MESP) surrounding the π-region of several substituted ethylenes (CH2CHR) have been characterized by locating the most negative-valued point (V min) in that region. The substituents have been classified as electron donating and withdrawing on the basis of the increase or decrease in the negative character of V min in these systems as compared to ethylene. The values of V min show a good linear correlation with the Hammett σp constants, suggesting that the substituent electronic effects in substituted ethylenes and substituted benzenes are basically similar. With electron-donating substituents, the position of MESP minimum is closer to the unsubstituted carbon facilitating the π-complex formation of it with HCl at this site. Such a regiospecific π-complex formation is found to favor the formation of Markovnikov-type transition state for the addition of HCl to CH2CHR. For the electron-withdrawing substituents, the V min location is almost equidistant and farther from the ethylenic carbon atoms. This and the less negative V min values account for the less regiospecific CH2CHR···HCl π-complexes as well as the transition states for the HCl addition to CH2CHR when R is an electron-withdrawing group. The interaction energy (E int) between CH2CHR and HCl for the formation of the CH2CHR···HCl π-complex shows a good linear correlation with the corresponding V min value. |
| doi_str_mv | 10.1021/jo010063f |
| format | article |
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H ; Koga, Nobuaki ; Gadre, Shridhar R</creator><creatorcontrib>Suresh, C. H ; Koga, Nobuaki ; Gadre, Shridhar R</creatorcontrib><description>Molecular electrostatic potentials (MESP) surrounding the π-region of several substituted ethylenes (CH2CHR) have been characterized by locating the most negative-valued point (V min) in that region. The substituents have been classified as electron donating and withdrawing on the basis of the increase or decrease in the negative character of V min in these systems as compared to ethylene. The values of V min show a good linear correlation with the Hammett σp constants, suggesting that the substituent electronic effects in substituted ethylenes and substituted benzenes are basically similar. With electron-donating substituents, the position of MESP minimum is closer to the unsubstituted carbon facilitating the π-complex formation of it with HCl at this site. Such a regiospecific π-complex formation is found to favor the formation of Markovnikov-type transition state for the addition of HCl to CH2CHR. For the electron-withdrawing substituents, the V min location is almost equidistant and farther from the ethylenic carbon atoms. This and the less negative V min values account for the less regiospecific CH2CHR···HCl π-complexes as well as the transition states for the HCl addition to CH2CHR when R is an electron-withdrawing group. 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H</creatorcontrib><creatorcontrib>Koga, Nobuaki</creatorcontrib><creatorcontrib>Gadre, Shridhar R</creatorcontrib><title>Revisiting Markovnikov Addition to Alkenes via Molecular Electrostatic Potential</title><title>Journal of organic chemistry</title><addtitle>J. Org. Chem</addtitle><description>Molecular electrostatic potentials (MESP) surrounding the π-region of several substituted ethylenes (CH2CHR) have been characterized by locating the most negative-valued point (V min) in that region. The substituents have been classified as electron donating and withdrawing on the basis of the increase or decrease in the negative character of V min in these systems as compared to ethylene. The values of V min show a good linear correlation with the Hammett σp constants, suggesting that the substituent electronic effects in substituted ethylenes and substituted benzenes are basically similar. With electron-donating substituents, the position of MESP minimum is closer to the unsubstituted carbon facilitating the π-complex formation of it with HCl at this site. Such a regiospecific π-complex formation is found to favor the formation of Markovnikov-type transition state for the addition of HCl to CH2CHR. For the electron-withdrawing substituents, the V min location is almost equidistant and farther from the ethylenic carbon atoms. This and the less negative V min values account for the less regiospecific CH2CHR···HCl π-complexes as well as the transition states for the HCl addition to CH2CHR when R is an electron-withdrawing group. The interaction energy (E int) between CH2CHR and HCl for the formation of the CH2CHR···HCl π-complex shows a good linear correlation with the corresponding V min value.</description><issn>0022-3263</issn><issn>1520-6904</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><recordid>eNptkE9PwyAYh4nRuDk9-AVML5p4qAIt0B6XOf8kW2x0ngm01LB1ZQJd9NvL0mVe5PDy5uXJ-yMPAJcI3iGI0f3SQAQhTeojMEQEw5jmMD0GQwgxjhNMkwE4c24JwyGEnIIBQiRnGJIhKN7UVjvtdfsZzYVdmW2rQ4nGVRWGpo28icbNSrXKRVstorlpVNk1wkbT0HhrnBdel1FhvGq9Fs05OKlF49TF_h6Bj8fpYvIcz16fXibjWSySNPcxJiSjUhCFqahRJTGjGZElLElCs7IWtM4ywiCFBFKaUiWpZFUls1xRwSSTyQjc9Hs31nx1ynm-1q5UTSNaZTrHGUY5TRkK4G0PluGzzqqab6xeC_vDEeQ7ffygL7BX-6WdXKvqj9z7CkDcA9p59X14D-I4ZQkjfFG8c5wu2EMxT_gu_LrnRelCTmfb4OSf4F8vfIXF</recordid><startdate>20011019</startdate><enddate>20011019</enddate><creator>Suresh, C. 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Such a regiospecific π-complex formation is found to favor the formation of Markovnikov-type transition state for the addition of HCl to CH2CHR. For the electron-withdrawing substituents, the V min location is almost equidistant and farther from the ethylenic carbon atoms. This and the less negative V min values account for the less regiospecific CH2CHR···HCl π-complexes as well as the transition states for the HCl addition to CH2CHR when R is an electron-withdrawing group. The interaction energy (E int) between CH2CHR and HCl for the formation of the CH2CHR···HCl π-complex shows a good linear correlation with the corresponding V min value.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>11597205</pmid><doi>10.1021/jo010063f</doi><tpages>8</tpages></addata></record> |
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| source | American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list) |
| title | Revisiting Markovnikov Addition to Alkenes via Molecular Electrostatic Potential |
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