Electron-rich (original) (raw)
In chemistry, electron-rich is jargon that is used in multiple related meanings with either or both kinetic and thermodynamic implications: * with regards to electron-transfer, electron-rich species have low ionization energy and/or are reducing agents. Tetrakis(dimethylamino)ethylene is an electron-rich alkene because, unlike ethylene, it forms isolable radical cation. In contrast, electron-poor alkene tetracyanoethylene is an electron acceptor, forming isolable anions. * with regards to acid-base reactions, electron-rich species have high pKa's and react with weak Lewis acids. * with regards to nucleophilic substitution reactions, electron-rich species are relatively strong nucleophiles, as judged by rates of attack by electrophiles. For example, compared to benzene, pyrrole is more r
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| dbo:abstract | In chemistry, electron-rich is jargon that is used in multiple related meanings with either or both kinetic and thermodynamic implications: * with regards to electron-transfer, electron-rich species have low ionization energy and/or are reducing agents. Tetrakis(dimethylamino)ethylene is an electron-rich alkene because, unlike ethylene, it forms isolable radical cation. In contrast, electron-poor alkene tetracyanoethylene is an electron acceptor, forming isolable anions. * with regards to acid-base reactions, electron-rich species have high pKa's and react with weak Lewis acids. * with regards to nucleophilic substitution reactions, electron-rich species are relatively strong nucleophiles, as judged by rates of attack by electrophiles. For example, compared to benzene, pyrrole is more rapidly attacked by electrophiles. Pyrrole is therefore considered to be an electron-rich aromatic ring. Similarly, benzene derivatives with electron-donating groups (EDGs) are attacked by electrophiles faster than in benzene. The electron-donating vs electron-withdrawing influence of various functional groups have been extensively parameterized in linear free energy relationships. * with regards to Lewis acidity, electron-rich species are strong Lewis bases. (en) |
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| dbo:wikiPageWikiLink | dbr:Pyrrole dbr:Benzene dbc:Chemical_bonding dbr:Lewis_acid dbr:Lewis_base dbr:Ionization_energy dbr:Ethylene dbr:PKa dbc:Physical_organic_chemistry dbr:Tetracyanoethylene dbr:Tetrakis(dimethylamino)ethylene dbr:Chemistry dbr:Electron-transfer dbr:Linear_free_energy_relationship dbr:Radical_cation dbr:Acid-base_reactions dbr:Nucleophilic_substitution_reaction dbr:Oxidation_potential |
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| rdfs:comment | In chemistry, electron-rich is jargon that is used in multiple related meanings with either or both kinetic and thermodynamic implications: * with regards to electron-transfer, electron-rich species have low ionization energy and/or are reducing agents. Tetrakis(dimethylamino)ethylene is an electron-rich alkene because, unlike ethylene, it forms isolable radical cation. In contrast, electron-poor alkene tetracyanoethylene is an electron acceptor, forming isolable anions. * with regards to acid-base reactions, electron-rich species have high pKa's and react with weak Lewis acids. * with regards to nucleophilic substitution reactions, electron-rich species are relatively strong nucleophiles, as judged by rates of attack by electrophiles. For example, compared to benzene, pyrrole is more r (en) |
| rdfs:label | Electron-rich (en) |
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