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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.
Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation02:47

Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation

Introduction
One of the convenient methods for the preparation of aldehydes and ketones is via hydration of alkynes. Hydroboration-oxidation of alkynes is an indirect hydration reaction in which an alkyne is treated with borane followed by oxidation with alkaline peroxide to form an enol that rapidly converts into an aldehyde or a ketone. Terminal alkynes form aldehydes, whereas internal alkynes give ketones as the final product.
Radical Anti-Markovnikov Addition to Alkenes: Overview01:25

Radical Anti-Markovnikov Addition to Alkenes: Overview

The addition of hydrogen bromide to alkenes in the presence of hydroperoxides or peroxides proceeds via an anti-Markovnikov pathway and yields alkyl bromides.
Preparation of Alcohols via Addition Reactions02:15

Preparation of Alcohols via Addition Reactions

Overview
The acid-catalyzed addition of water to the double bond of alkenes is a large-scale industrial method used to synthesize low-molecular-weight alcohols. An acidic atmosphere is required to allow the hydrogen in the water molecule to act as an electrophile and attack the double bond in an alkene. The addition of a proton to the double bond creates a carbocation intermediate. The proton preferentially bonds to the less substituted end of the double bond to create a more stable carbocation...
Regioselectivity and Stereochemistry of Acid-Catalyzed Hydration02:34

Regioselectivity and Stereochemistry of Acid-Catalyzed Hydration

The rate of acid-catalyzed hydration of alkenes depends on the alkene's structure, as the presence of alkyl substituents at the double bond can significantly influence the rate.

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Updated: Jul 4, 2026

Synthesis of a Borylated Ibuprofen Derivative Through Suzuki Cross-Coupling and Alkene Boracarboxylation Reactions
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Hidroboración dirigida por aminas: alcance y limitaciones.

Matthew Scheideman1, Guoqiang Wang, Edwin Vedejs

  • 1Department of Chemistry, University of Michigan, Ann Arbor, Michigan 48109, USA.

Journal of the American Chemical Society
|June 14, 2008
PubMed
Resumen
Este resumen es generado por máquina.

La activación de yodo permite la hidroboración intramolecular en aminoboranos, ofreciendo un control regioquímico. Este método evita la retrohidroboración y muestra una selectividad variable basada en la longitud de la cadena de carbono.

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Área de la Ciencia:

  • Química orgánica es la química orgánica.
  • Química organometálica Química orgánica de los metales.

Sus antecedentes:

  • La hidroboración es una transformación orgánica clave.
  • El control de la regioselectividad en la hidroboración de boranos aminados insaturados es un reto.
  • Los métodos existentes a menudo carecen de un control preciso o implican condiciones duras.

Objetivo del estudio:

  • Para investigar la hidroboración intramolecular inducida por yodo de los boranos de aminas homoalílicas y bis-homoalílicas.
  • Para comparar la regioselectividad de las reacciones activadas por yodo con experimentos de control utilizando tetrahidrofurano borano (THF·BH3).
  • Para dilucidar el mecanismo de reacción y la influencia de la longitud de la correa en la selectividad.

Principales métodos:

  • Activación de las aminoboranas utilizando yodo.
  • Estudios de etiquetado de deuterio para sondear las vías de reacción.
  • Análisis comparativo de la regioselectividad bajo diferentes condiciones de activación y estructuras de sustrato.

Principales resultados:

  • La activación de yodo promueve la hidroboración intramolecular de boranos de aminas homoalílicos y bis-homoalílicos con un buen o excelente control regioquímico.
  • La reacción se produce a través de un mecanismo intramolecular, similar a un proceso clásico de 4 centros, y no es reversible.
  • La regioselectividad está influenciada por la longitud de la cadena de carbono, con cadenas más cortas que favorecen las reacciones intermoleculares y cadenas más largas que muestran una disminución de la selectividad.

Conclusiones:

  • La hidroboración mediada por yodo ofrece un método controlado para funcionalizar las aminas boranas.
  • El mecanismo de reacción es distinto de la hidroboración clásica y es sensible a la estructura del sustrato.
  • Este enfoque proporciona una alternativa valiosa para la síntesis de compuestos orgánicos específicos del organoboron.