Reaction of the Lewis Acid Tris(pentafluorophenyl)borane with a Phosphorus Ylide:  Competition between Adduct Formation and Electrophilic and Nucleophilic Aromatic Substitution Pathways

Döring, Steve; Erker, Gerhard; Fröhlich, Roland; Meyer, Oliver; Bergander, Klaus

doi:10.1021/om9709953

Cited by 116 publications

(76 citation statements)

References 15 publications

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“…cyanide was attractive due to the remarkable "anion abstracting properties of this special boron compound". [29,30] The hypothesis involving nucleophilic attack of the alkene at the central cyanamide carbon atom was attractive since this is the typical site of nucleophile attack on cyanamides.…”

Section: Methodsmentioning

confidence: 99%

Intramolecular Aminocyanation of Alkenes by NCN Bond Cleavage

et al. 2014

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A metal-free, Lewis acid promoted intramolecular aminocyanation of alkenes was developed. B(C 6 F 5 ) 3 activates N-sulfonyl cyanamides, thus leading to a formal cleavage of the NÀCN bonds in conjunction with vicinal addition of sulfonamide and nitrile groups across an alkene. This method enables atom-economical access to indolines and tetrahydroquinolines in excellent yields, and provides a complementary strategy for regioselective alkene difunctionalizations with sulfonamide and nitrile groups. Labeling experiments with 13 C suggest a fully intramolecular cyclization pattern due to the lack of label scrambling in double crossover experiments. Catalysis with Lewis acid is realized and the reaction can be conducted under air.

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Section: Methodsmentioning

confidence: 99%

Intramolecular Aminocyanation of Alkenes by NCN Bond Cleavage

et al. 2014

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“…Instead, it was suggested that pyridine attacks the carbon para to the carbocation, [100] although this report was subsequently disputed. [101] In 1998, Doering et al [102] described the reaction of the Lewis acid B(C 6 F 5 ) 3 , which is isoelectronic to the trityl cation, with the ylide Ph 3 PCHPh. It was shown that the classical Lewis adduct, (Ph 3 PCHPh)B(C 6 F 5 ) 3 , formed reversibly at room temperature and rearranged at higher temperature to effect attack at the para-position of one of the C 6 F 5 rings.…”

Section: Para-substitution Reactionsmentioning

confidence: 99%

Frustrated Lewis Pairs: Metal‐free Hydrogen Activation and More

2009

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Sterically encumbered Lewis acid and Lewis base combinations do not undergo the ubiquitous neutralization reaction to form "classical" Lewis acid/Lewis base adducts. Rather, both the unquenched Lewis acidity and basicity of such sterically "frustrated Lewis pairs (FLPs)" is available to carry out unusual reactions. Typical examples of frustrated Lewis pairs are inter- or intramolecular combinations of bulky phosphines or amines with strongly electrophilic RB(C(6)F(5))(2) components. Many examples of such frustrated Lewis pairs are able to cleave dihydrogen heterolytically. The resulting H(+)/H(-) pairs (stabilized for example, in the form of the respective phosphonium cation/hydridoborate anion salts) serve as active metal-free catalysts for the hydrogenation of, for example, bulky imines, enamines, or enol ethers. Frustrated Lewis pairs also react with alkenes, aldehydes, and a variety of other small molecules, including carbon dioxide, in cooperative three-component reactions, offering new strategies for synthetic chemistry.

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“…[101] 1998 beschrieben Döring et al die Reaktion der Lewis-Säure B(C 6 F 5 ) 3 , die isoelektronisch zum Tritylkation ist, mit dem Phosphor-Ylid Ph 3 PCHPh. [102] Es konnte gezeigt werden, dass die Bildung des klassischen Lewis-Addukts (Ph 3 PCHPh)B-(C 6 F 5 ) 3 in diesem Fall reversibel ist. Bei erhöhter Temperatur findet über die Rückreaktion eine Umlagerung unter Angriff des Ylid-Nucleophils auf das para-Kohlenstoffatom eines C 6 F 5 -Rings statt.…”

Section: Para-substitutionenunclassified

“…Nachfolgende Fluoridübertragung auf das Boratom führt dabei zum zwitterionischen Phosphoniumboratsystem Ph 3 PCHPh(C 6 F 4 )BF(C 6 F 5 ) 2 (Schema 54). [102] Bei ähnlichen Reaktionen von Tritylboraten mit LewisDonoren konnte gezeigt werden, [103] dass sperrige Phosphine mit tBu-, iPr-oder Cy-Substituenten nicht das Carbokation angreifen, sondern unter nucleophiler Substitution am paraKohlenstoffatom des Arens zu den Salzen 140 oder 141 reagieren (Schema 55). [103] In der Folge konnte gezeigt werden, dass diese Reaktionsweise recht allgemeingültig ist.…”

Section: Para-substitutionenunclassified

Frustrierte Lewis‐Paare: metallfreie Wasserstoffaktivierung und mehr

2009

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Die Kombination sterisch gehinderter Lewis‐Säuren und ‐Basen führt nicht zur üblichen Neutralisationsreaktion unter Bildung der “klassischen” Lewis‐Säure/Base‐Addukte. Stattdessen stehen die Lewis‐Acidität und ‐Basizität solcher “frustrierten Lewis‐Paare” (FLPs) gemeinsam für die Durchführung ungewöhnlicher Reaktionen zur Verfügung. Typische Beispiele für FLPs bestehen aus inter‐ und intramolekularen Kombinationen sperriger Phosphine und Amine mit stark elektrophilen RB(C6F5)2‐Komponenten. Viele frustrierte Lewis‐Paare sind in der Lage, Wasserstoff heterolytisch zu spalten. Die resultierenden H+/H−‐Paare (z. B. stabilisiert in Form der entsprechenden Phosphonium‐Kation/Hydridoborat‐Anion‐Salze) fungieren als metallfreie Katalysatoren für die Hydrierung sperriger Imine, Enamine, Enolether usw. FLPs reagieren auch mit Alkenen, Carbonylverbindungen und einer Vielzahl anderer kleiner Moleküle, darunter auch Kohlendioxid, in vermutlich kooperativen Dreikomponentenreaktionen. Auf dieser Beobachtung lassen sich neue Synthesestrategien aufbauen.

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Reaction of the Lewis Acid Tris(pentafluorophenyl)borane with a Phosphorus Ylide: Competition between Adduct Formation and Electrophilic and Nucleophilic Aromatic Substitution Pathways

Cited by 116 publications

References 15 publications

Intramolecular Aminocyanation of Alkenes by NCN Bond Cleavage

Intramolecular Aminocyanation of Alkenes by NCN Bond Cleavage

Frustrated Lewis Pairs: Metal‐free Hydrogen Activation and More

Frustrierte Lewis‐Paare: metallfreie Wasserstoffaktivierung und mehr

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