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Oxidation of Alkenes: Syn Dihydroxylation with Osmium Tetraoxide02:44

Oxidation of Alkenes: Syn Dihydroxylation with Osmium Tetraoxide

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Alkenes are converted to 1,2-diols or glycols through a process called dihydroxylation. It involves the addition of two hydroxyl groups across the double bond with two different stereochemical approaches, namely anti and syn. Dihydroxylation using osmium tetroxide progresses with syn stereochemistry.
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Electron Paramagnetic Resonance (EPR) Spectroscopy: Organic Radicals01:17

Electron Paramagnetic Resonance (EPR) Spectroscopy: Organic Radicals

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Ideally, an unpaired electron shows a single peak in the EPR spectrum due to the transition between the two spin energy states. However, coupling interactions can occur between the spins of the unpaired electron and any neighboring spin-active nuclei. This hyperfine coupling results in hyperfine splitting, where the EPR signal is split into multiplets. The signals split into 2nI + 1 peaks, where n is the number of equivalent nuclei and I is the nuclear spin. These splitting patterns provide...
3.6K
Crystal Field Theory - Tetrahedral and Square Planar Complexes02:46

Crystal Field Theory - Tetrahedral and Square Planar Complexes

49.0K
Tetrahedral Complexes
Crystal field theory (CFT) is applicable to molecules in geometries other than octahedral. In octahedral complexes, the lobes of the dx2−y2 and dz2 orbitals point directly at the ligands. For tetrahedral complexes, the d orbitals remain in place, but with only four ligands located between the axes. None of the orbitals points directly at the tetrahedral ligands. However, the dx2−y2 and dz2 orbitals (along the Cartesian axes) overlap with the ligands less than the dxy,...
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E2 Reaction: Stereochemistry and Regiochemistry02:43

E2 Reaction: Stereochemistry and Regiochemistry

14.0K
Elimination reactions of alkyl halides can yield one or more alkenes depending on the specific regiochemical and stereochemical considerations. While the regiochemistry of the reaction governs the location of the double bond in the product, the stereochemical requirements often influence the geometry.
When a substrate with two different β hydrogens undergoes an E2 elimination, the presence of a strong base can yield two regioisomeric alkenes. The more-substituted alkene is the major...
14.0K
Photochemical Electrocyclic Reactions: Stereochemistry01:26

Photochemical Electrocyclic Reactions: Stereochemistry

2.3K
The absorption of UV–visible light by conjugated systems causes the promotion of an electron from the ground state to the excited state. Consequently, photochemical electrocyclic reactions proceed via the excited-state HOMO rather than the ground-state HOMO. Since the ground- and excited-state HOMOs have different symmetries, the stereochemical outcome of electrocyclic reactions depends on the mode of activation; i.e., thermal or photochemical.
Selection Rules: Photochemical Activation
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Regioselectivity of Electrophilic Additions-Peroxide Effect02:35

Regioselectivity of Electrophilic Additions-Peroxide Effect

11.3K
In the presence of organic peroxides, the addition of hydrogen bromide to an alkene yields the isomer that is not predicted by Markovnikov’s rule. For example, the addition of hydrogen bromide to 2-methylpropene in the presence of peroxides gives 1-bromo-2-methylpropane. This addition reaction proceeds via a free radical mechanism, which reverses the regioselectivity. The free radical reaction mechanism involves three stages: initiation, propagation, and termination.
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Updated: Feb 28, 2026

Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes
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Catalytic Reactions at Amine-Stabilized and Ligand-Free Platinum Nanoparticles Supported on Titania During Hydrogenation of Alkenes and Aldehydes

Published on: June 24, 2022

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Un reactivo de platino de dos electrones de la esfera externa.

Hershel Jude1, Jeanette A Krause Bauer, William B Connick

  • 1Department of Chemistry, University of Cincinnati, Cincinnati, Ohio 45221-0172, USA.

Journal of the American Chemical Society
|March 20, 2003
PubMed
Resumen
Este resumen es generado por máquina.

Este estudio introduce un nuevo complejo de platino con una estructura de ligando única. Este diseño permite un fácil ciclo redox de dos electrones entre los estados de platino (II) y platino (IV), avanzando el desarrollo cooperativo de reactivos de transferencia de electrones en la esfera externa.

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Área de la Ciencia:

  • Química Inorgánica La Química Inorgánica es la química inorgánica.
  • Química organometálica Química orgánica de los metales.
  • La electroquímica es electroquímica.

Sus antecedentes:

  • El diseño de reactivos eficientes de transferencia de electrones es crucial para la catálisis y la ciencia de los materiales.
  • Los complejos de platino son ampliamente estudiados por sus propiedades redox.
  • Los mecanismos de transferencia de electrones de la esfera externa requieren ambientes de ligando específicos.

Objetivo del estudio:

  • Demostrar una estrategia para el diseño de reactivos de platino de dos electrones de esfera externa cooperativa.
  • Para sintetizar y caracterizar un nuevo complejo de platino (II) con un ligando de tipo pinza único.
  • Para investigar el comportamiento electroquímico y las capacidades redox del complejo sintetizado.

Principales métodos:

  • Síntesis de un nuevo complejo de platino (II), [Pt (tpy) (pip2NCN) ][BF4].
  • Protonación del complejo para formar [Pt(tpy) ((pip2NCNH2) ]][PF6]3.3.
  • Caracterización estructural utilizando espectroscopia de RMN de 1H y cristalografía de rayos X. Caracterización estructural utilizando espectroscopia de RMN de 1H y cristalografía de rayos X. Caracterización estructural utilizando espectroscopia de RMN de 1H y cristalografía de rayos X. Caracterización estructural utilizando espectroscopia de RMN de 1H y cristalografía de rayos X.
  • Análisis electroquímico a través de voltametría cíclica.

Principales resultados:

  • El nuevo complejo de platino (II), [Pt (tpy) (pip2NCN) ] [BF4], fue preparado con éxito.
  • La protonación produjo un complejo estable de platino (II) con un modo de coordinación de ligando distinto.
  • La voltametría cíclica reveló dos ondas de reducción de un electrón reversibles y una onda de oxidación de dos electrones casi reversible.
  • El complejo facilita la fácil interconversión entre los estados de oxidación de Pt (II) y Pt (IV).

Conclusiones:

  • La inusual arquitectura de ligandos del complejo de platino estabiliza múltiples estados de oxidación.
  • Esta estrategia de diseño es efectiva para crear reactivos de platino de dos electrones de esfera externa cooperativos.
  • Los hallazgos abren caminos para el desarrollo de nuevos sistemas electrocatalíticos y materiales redox-activos.