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Reduction of Alkenes: Catalytic Hydrogenation02:13

Reduction of Alkenes: Catalytic Hydrogenation

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Alkenes undergo reduction by the addition of molecular hydrogen to give alkanes. Because the process generally occurs in the presence of a transition-metal catalyst, the reaction is called catalytic hydrogenation.
Metals like palladium, platinum, and nickel are commonly used in their solid forms — fine powder on an inert surface. As these catalysts remain insoluble in the reaction mixture, they are referred to as heterogeneous catalysts.
The hydrogenation process takes place on the...
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Reduction of Alkenes: Asymmetric Catalytic Hydrogenation02:17

Reduction of Alkenes: Asymmetric Catalytic Hydrogenation

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Catalytic hydrogenation of alkenes is a transition-metal catalyzed reduction of the double bond using molecular hydrogen to give alkanes. The mode of hydrogen addition follows syn stereochemistry.
The metal catalyst used can be either heterogeneous or homogeneous. When hydrogenation of an alkene generates a chiral center, a pair of enantiomeric products is expected to form. However, an enantiomeric excess of one of the products can be facilitated using an enantioselective reaction or an...
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Reduction of Benzene to Cyclohexane: Catalytic Hydrogenation01:28

Reduction of Benzene to Cyclohexane: Catalytic Hydrogenation

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Unlike the easy catalytic hydrogenation of an alkene double bond, hydrogenation of a benzene double bond under similar reaction conditions does not take place easily. For example, in the reduction of stilbene, the benzene ring remains unaffected while the alkene bond gets reduced. Hydrogenation of an alkene double bond is exothermic and a favorable process. In contrast, to hydrogenate the first unsaturated bond of benzene, an energy input is needed; that is, the process is endothermic. This is...
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Reduction of Alkynes to cis-Alkenes: Catalytic Hydrogenation02:24

Reduction of Alkynes to cis-Alkenes: Catalytic Hydrogenation

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Introduction
Like alkenes, alkynes can be reduced to alkanes in the presence of transition metal catalysts such as Pt, Pd, or Ni. The reaction involves two sequential syn additions of hydrogen via a cis-alkene intermediate.
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Catalysis02:50

Catalysis

32.1K
The presence of a catalyst affects the rate of a chemical reaction. A catalyst is a substance that can increase the reaction rate without being consumed during the process. A basic comprehension of a catalysts’ role during chemical reactions can be understood from the concept of reaction mechanisms and energy diagrams.
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Updated: Mar 27, 2026

Fabrication of Gate-tunable Graphene Devices for Scanning Tunneling Microscopy Studies with Coulomb Impurities
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Conocimientos básicos sobre la hidrogenación de grafeno sintonizable

Ricarda A Schäfer1, Daniela Dasler1, Udo Mundloch1

  • 1Department of Chemistry and Pharmacy and Joint Institute of Advanced Materials and Processes (ZMP), Friedrich-Alexander University of Erlangen-Nürnberg , Henkestrasse 42, 91054 Erlangen, Germany.

Journal of the American Chemical Society
|January 16, 2016
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores exploraron la síntesis de grafeno hidrogenado y deuterado a partir de compuestos de intercalación de grafito. Los factores clave como la fuente de hidrógeno, el tipo de grafito y el disolvente influyen en la producción de materiales de grafeno mono y de pocas capas.

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Área de la Ciencia:

  • Ciencias de los materiales
  • Química
  • Nanotecnología

Sus antecedentes:

  • Los compuestos de intercalación de potasio sirven como precursores para la funcionalización del grafeno.
  • La hidrogenación y la deuteración son cruciales para modificar las propiedades del grafeno.

Objetivo del estudio:

  • Investigar la hidrogenación en profundidad y la deuteración del grafito utilizando compuestos de intercalación de potasio.
  • Caracterizar los productos de grafeno hidrogenados y deuterizados resultantes.
  • Identificar los factores clave que influyen en el resultado de la síntesis.

Principales métodos:

  • Síntesis de grafeno hidrogenado y deuterado a partir de compuestos de intercalación de grafito de potasio.
  • Caracterización mediante análisis termogravimétrico junto con espectrometría de masas (TG-MS).
  • Análisis mediante espectroscopia estadística de Raman (SRS) y microscopia estadística de Raman (SRM).

Principales resultados:

  • Los resultados de la reacción están significativamente influenciados por la fuente de hidrógeno / deuterio, la naturaleza del grafito, la concentración de potasio y la elección del disolvente.
  • Se logró la producción exitosa de grafeno hidrogenado/deuterado tanto mono como de pocas capas.
  • La caracterización detallada confirmó la estructura y la composición de los materiales sintetizados.

Conclusiones:

  • La síntesis de grafeno hidrogenado y deuterado se puede controlar mediante diferentes parámetros de reacción.
  • Este método ofrece una vía para materiales de grafeno a medida para diversas aplicaciones.
  • Comprender estos parámetros es vital para la producción escalable de grafeno funcional.