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Regioselectivity and Stereochemistry of Hydroboration02:36

Regioselectivity and Stereochemistry of Hydroboration

A significant aspect of hydroboration–oxidation is the regio- and stereochemical outcome of the reaction.
Hydroboration proceeds in a concerted fashion with the attack of borane on the π bond, giving a cyclic four-centered transition state. The –BH2 group is bonded to the less substituted carbon and –H to the more substituted carbon. The concerted nature requires the simultaneous addition of –H and –BH2 across the same face of the alkene giving syn stereochemistry.
Hydroboration-Oxidation of Alkenes03:08

Hydroboration-Oxidation of Alkenes

In addition to the oxymercuration–demercuration method, which converts the alkenes to alcohols with Markovnikov orientation, a complementary hydroboration-oxidation method yields the anti-Markovnikov product. The hydroboration reaction, discovered in 1959 by H.C. Brown, involves the addition of a B–H bond of borane to an alkene giving an organoborane intermediate. The oxidation of this intermediate with basic hydrogen peroxide forms an alcohol.
Electrophilic 1,2- and 1,4-Addition of HX to 1,3-Butadiene01:17

Electrophilic 1,2- and 1,4-Addition of HX to 1,3-Butadiene

The electrophilic addition of hydrogen halides such as HBr to alkenes and nonconjugated dienes gives a single product as per Markovnikov’s rule.
Halogenation of Alkenes02:46

Halogenation of Alkenes

Halogenation is the addition of chlorine or bromine across the double bond in an alkene to yield a vicinal dihalide. The reaction occurs in the presence of inert and non-nucleophilic solvents, such as methylene chloride, chloroform, or carbon tetrachloride.
Consider the bromination of cyclopentene. Molecular bromine is polarized in the proximity of the π electrons of cyclopentene. An electrophilic bromine atom adds across the double bond, forming a cyclic bromonium ion intermediate.
Electrophilic 1,2- and 1,4-Addition of X2 to 1,3-Butadiene01:14

Electrophilic 1,2- and 1,4-Addition of X2 to 1,3-Butadiene

Electrophilic addition of halogens to alkenes proceeds via a cyclic halonium ion to form a 1,2-dihalide or a vicinal dihalide.
Radical Substitution: Hydrogenolysis of Alkyl Halides with Tributyltin Hydride01:26

Radical Substitution: Hydrogenolysis of Alkyl Halides with Tributyltin Hydride

Radical substitution reactions can be used to remove functional groups from molecules. The hydrogenolysis of alkyl halides is one such reaction, where the weak Sn–H bond in tributyltin hydride reacts with alkyl halides to form alkanes. Here, the reagent Bu3SnH yields tributyltin halide as a byproduct.
The bonds formed in this reaction are stronger than the bonds broken, making it energetically favorable. The reaction follows a radical chain mechanism similar to radical halogenation reactions,...

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Updated: May 21, 2026

Synthesis of a Borylated Ibuprofen Derivative Through Suzuki Cross-Coupling and Alkene Boracarboxylation Reactions
08:56

Synthesis of a Borylated Ibuprofen Derivative Through Suzuki Cross-Coupling and Alkene Boracarboxylation Reactions

Published on: November 30, 2022

Dirección de la esfera exterior en la borilación del iridio C-H.

Philipp C Roosen1, Venkata A Kallepalli, Buddhadeb Chattopadhyay

  • 1Department of Chemistry, Michigan State University, East Lansing, Michigan 48824-1322, USA.

Journal of the American Chemical Society
|June 19, 2012
PubMed
Resumen
Este resumen es generado por máquina.

El grupo NHBoc permite borilaciones selectivas de C-H en arenos y alquenos. Este mecanismo de esfera externa implica enlaces de hidrógeno, ofreciendo regioselectividades únicas complementarias a las orto-metalizaciones dirigidas.

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Área de la Ciencia:

  • Química orgánica es la química orgánica.
  • La catálisis de la catálisis.

Sus antecedentes:

  • Las orto-metalaciones dirigidas son comunes para la funcionalización de los anillos aromáticos.
  • La borilación C-H es una herramienta poderosa para introducir grupos funcionales de boro.
  • El desarrollo de nuevos métodos para la funcionalización C-H regioselectiva es crucial.

Objetivo del estudio:

  • Introducir el grupo NHBoc para borilaciones C-H orto selectivas.
  • Para dilucidar el mecanismo de esta nueva reacción de borilación.
  • Para comparar la regioselectividad con métodos existentes como las orto-metalaciones dirigidas.

Principales métodos:

  • Estudios experimentales con arenos y alquenos.
  • Investigaciones computacionales para comprender los mecanismos de reacción.
  • Análisis de la regioselectividad en las reacciones de borilación C-H.

Principales resultados:

  • El grupo NHBoc dirigió con éxito borilaciones C-H orto selectivas.
  • Se propuso un mecanismo de esfera externa y fue apoyado por datos.
  • El enlace de hidrógeno del protón N-H con un oxígeno ligando borilo fue identificado como clave.
  • Se observaron regioselectividades únicas, distintas de las orto-metalizaciones dirigidas.

Conclusiones:

  • El grupo NHBoc es un grupo directivo efectivo para la borilación regioselectiva de C-H.
  • El mecanismo de la esfera externa proporciona nuevos conocimientos mecanicistas sobre la funcionalidad C-H.
  • Este método ofrece regioselectividad complementaria a las técnicas de ortofuncionalización establecidas.