The Chemistry of Short-Lived α-Fluorocarbocations

Shlomo Rozen; Inna Vints; Ana Lerner; Oded Hod; Edward N. Brothers; Salvador Moncho

doi:10.1021/acs.joc.0c02731

The Chemistry of Short-Lived α-Fluorocarbocations

Shlomo Rozen, Inna Vints, Ana Lerner, Oded Hod, Edward N. Brothers, Salvador Moncho

Tel Aviv University, Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

The present study of the chemistry of short-lived α-fluorocarbocations reveals that even inactive methyl carbons can serve as nucleophiles, attacking a cationic center. This, in turn, facilitates the synthesis of a cyclopropane ring in certain triterpene backbones. We report the synthesis of compounds similar to 2, containing a bridgehead cyclopropane, and compounds of type 3 with an 11 membered bicyclic ring consisting of two bridgehead double bonds (anti-Bredt) within a triterpene skeleton. The synthesis involves three unconventional chemical processes: (a) a methyl group serving as a nucleophile; (b) the unexpected and unprecedented synthesis of a strained system in the absence of an external neighboring trigger; and (c) the formation of an 11-membered bicyclic diene ring within a triterpenoid skeleton. An α-fluorocarbocation mechanism is proposed and supported by density functional theory calculations.

Original language	English
Pages (from-to)	3882-3889
Number of pages	8
Journal	Journal of Organic Chemistry
Volume	86
Issue number	5
DOIs	https://doi.org/10.1021/acs.joc.0c02731
State	Published - 5 Mar 2021

All Science Journal Classification (ASJC) codes

Organic Chemistry

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10.1021/acs.joc.0c02731

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title = "The Chemistry of Short-Lived α-Fluorocarbocations",

abstract = "The present study of the chemistry of short-lived α-fluorocarbocations reveals that even inactive methyl carbons can serve as nucleophiles, attacking a cationic center. This, in turn, facilitates the synthesis of a cyclopropane ring in certain triterpene backbones. We report the synthesis of compounds similar to 2, containing a bridgehead cyclopropane, and compounds of type 3 with an 11 membered bicyclic ring consisting of two bridgehead double bonds (anti-Bredt) within a triterpene skeleton. The synthesis involves three unconventional chemical processes: (a) a methyl group serving as a nucleophile; (b) the unexpected and unprecedented synthesis of a strained system in the absence of an external neighboring trigger; and (c) the formation of an 11-membered bicyclic diene ring within a triterpenoid skeleton. An α-fluorocarbocation mechanism is proposed and supported by density functional theory calculations.",

author = "Shlomo Rozen and Inna Vints and Ana Lerner and Oded Hod and Brothers, \{Edward N.\} and Salvador Moncho",

year = "2021",

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doi = "10.1021/acs.joc.0c02731",

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journal = "Journal of Organic Chemistry",

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publisher = "American Chemical Society",

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T1 - The Chemistry of Short-Lived α-Fluorocarbocations

AU - Rozen, Shlomo

AU - Vints, Inna

AU - Lerner, Ana

AU - Hod, Oded

AU - Brothers, Edward N.

AU - Moncho, Salvador

PY - 2021/3/5

Y1 - 2021/3/5

N2 - The present study of the chemistry of short-lived α-fluorocarbocations reveals that even inactive methyl carbons can serve as nucleophiles, attacking a cationic center. This, in turn, facilitates the synthesis of a cyclopropane ring in certain triterpene backbones. We report the synthesis of compounds similar to 2, containing a bridgehead cyclopropane, and compounds of type 3 with an 11 membered bicyclic ring consisting of two bridgehead double bonds (anti-Bredt) within a triterpene skeleton. The synthesis involves three unconventional chemical processes: (a) a methyl group serving as a nucleophile; (b) the unexpected and unprecedented synthesis of a strained system in the absence of an external neighboring trigger; and (c) the formation of an 11-membered bicyclic diene ring within a triterpenoid skeleton. An α-fluorocarbocation mechanism is proposed and supported by density functional theory calculations.

AB - The present study of the chemistry of short-lived α-fluorocarbocations reveals that even inactive methyl carbons can serve as nucleophiles, attacking a cationic center. This, in turn, facilitates the synthesis of a cyclopropane ring in certain triterpene backbones. We report the synthesis of compounds similar to 2, containing a bridgehead cyclopropane, and compounds of type 3 with an 11 membered bicyclic ring consisting of two bridgehead double bonds (anti-Bredt) within a triterpene skeleton. The synthesis involves three unconventional chemical processes: (a) a methyl group serving as a nucleophile; (b) the unexpected and unprecedented synthesis of a strained system in the absence of an external neighboring trigger; and (c) the formation of an 11-membered bicyclic diene ring within a triterpenoid skeleton. An α-fluorocarbocation mechanism is proposed and supported by density functional theory calculations.

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U2 - 10.1021/acs.joc.0c02731

DO - 10.1021/acs.joc.0c02731

M3 - مقالة

C2 - 33615796

SN - 0022-3263

VL - 86

SP - 3882

EP - 3889

JO - Journal of Organic Chemistry

JF - Journal of Organic Chemistry

IS - 5

ER -

The Chemistry of Short-Lived α-Fluorocarbocations

Abstract

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