An Anion Radical Precursor in the Nucleophilic Substitution ofo-Dinitrobenzene

The reaction of m-nitrobenzyl 2,4,6-trimethylbenzoate (11) with the salt (2) of 2-nitropropane, or the thiolate (16), gives moderate yields of substitution products [e.g.(3) or (17)]. However, the mechanism of formation of these products could not be definitively assigned. The m-nitrobenzyl chloride (12), on the other hand, was clearly demonstrated to undergo SRN1 substitution reactions with a variety of anions including the anion from the salt (2), thiolate ion from (16), azide from (22), the malononitrile anion from (20), and the malonic ester anion from (21). Inhibition and entrainment effects clearly rule out an alternative radical anion-radical process involving cage collapse. The occurrence of SRNl reactions in m-nitrobenzylic substrates adds support to a mechanism involving association of radicals with anions, and for dissociation of radical anions, which involves σ* and π* radical anions.

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Self anion radical induced breaking carbon–oxygen bond in bay area of perylene diimide, and nucleophilic substitution with SRN1 mechanism

Tetrahedron ◽

10.1016/j.tet.2021.132480 ◽

2021 ◽

pp. 132480

Author(s):

Yuzhen Zhao ◽

Zemin He ◽

Yang Zhao ◽

Zhun Guo ◽

Huimin Zhang ◽

...

Keyword(s):

Nucleophilic Substitution ◽

Anion Radical ◽

Perylene Diimide ◽

Bay Area ◽

Oxygen Bond

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An Anion Radical Precursor in the Nucleophilic Substitution ofp-Dinitrobenzene

Bulletin of the Chemical Society of Japan ◽

10.1246/bcsj.51.196 ◽

1978 ◽

Vol 51 (1) ◽

pp. 196-200 ◽

Cited By ~ 27

Author(s):

Takehiro Abe ◽

Yusaku Ikegami

Keyword(s):

Nucleophilic Substitution ◽

Anion Radical

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Nucleophilic substitution of an acetate for a bromide

ChemSpider Synthetic Pages ◽

10.1039/sp77 ◽

2001 ◽

Author(s):

Melanie Reich

Keyword(s):

Nucleophilic Substitution

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Superoxide Anion Radical: Generation and Detection in Cellular and Non-Cellular Systems

Current Medicinal Chemistry ◽

10.2174/0929867322666151029104311 ◽

2015 ◽

Vol 22 (37) ◽

pp. 4234-4256 ◽

Cited By ~ 10

Author(s):

Renan Chiste ◽

Marisa Freitas ◽

Adriana Mercadante ◽

Eduarda Fernandes

Keyword(s):

Superoxide Anion ◽

Anion Radical ◽

Cellular Systems ◽

Superoxide Anion Radical ◽

Radical Generation

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The Synthesis of New Selenium-containing Heterocycles by the Oxidation Reaction of 2,4-Diaryltetrahydro-4H-selenochromenes

Current Organic Chemistry ◽

10.2174/1385272824999200720165656 ◽

2020 ◽

Vol 24 (15) ◽

pp. 1663-1668

Author(s):

Dmitriy Yurievich Direnko ◽

Boris Ivanovich Drevko ◽

Yaroslav Borisovich Drevko

Keyword(s):

Nucleophilic Substitution ◽

Chlorine Atom ◽

Oxidation Reaction ◽

Heterocyclic Fragment ◽

Oxidative Aromatization

We have explored the reactions of tetrahydro-4H-selenochromenes in the presence of phosphoric pentachloride, and synthesized new condensate aroylbenzoselenophenes. During the reactions, tetrahydro-4H-selenochromenes with phosphoric pentachloride underwent oxidative aromatization and nucleophilic substitution for a chlorine atom of one of the protons in the alicyclic fragment. Also, the narrowing of the heterocyclic fragment occurred as in synthesized selenium-containing compounds earlier transformed into the corresponding condensate aroylbenzoselenophenes.

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On the Reaction of 2,5-Dihydroxy-[1,4]-benzoquinone with Diamines – Strain-induced Reactivity Effects

Current Organic Chemistry ◽

10.2174/1385272824666201209112938 ◽

2020 ◽

Vol 24 ◽

Author(s):

Hubert Hettegger ◽

Andreas Hofinger ◽

Thomas Rosenau

Keyword(s):

Nucleophilic Substitution ◽

Product Structure ◽

Carbonyl Groups ◽

Reaction Products ◽

Double Bonds ◽

Oh Groups ◽

Natural Geometry ◽

Quinoid Structure ◽

Bond Localization

: The regioselectivity of the reaction of 2,5-dihydroxy-[1,4]-benzoquinone (DHBQ) with diamines could not be explained satisfactorily so far. In general, the reaction products can be derived from the tautomeric ortho-quinoid structure of a hypothetical 4,5-dihydroxy-[1,2]-benzoquinone. However, both aromatic and aliphatic 1,2-diamines form in some cases phenazines, formally by diimine formation on the quinoid carbonyl groups, and in other cases the corresponding 1,2- diamino-[1,2]-benzoquinones, by nucleophilic substitution of the OH groups, the regioselectivity apparently not following any discernible pattern. The reactivity was now explained by an adapted theory of strain-induced bond localization (SIBL). Here, the preservation of the "natural" geometry of the two quinoid C–C double bonds (C3=C4 and C5=C6) as well as the N–N distance of the co-reacting diamine are crucial. A decrease of the annulation angle sum (N–C4–C5 + C4–C5–N) is tolerated well and the 4,5-diamino-ortho-quinones, having relatively short N–N spacings are formed. An increase in the angular sum is energetically unfavorable, so that diamines with a larger N–N distance afford the corresponding ortho-quinone imines. Thus, for the reaction of DHBQ with diamines, exact predictions of the regioselectivity, and the resulting product structure, can be made on the basis of simple computations of bond spacings and product geometries.

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