Große Auswahl an günstigen Büchern
Schnelle Lieferung per Post und DHL

Organocatalysis for Spiro-Cyclic Assembly

Über Organocatalysis for Spiro-Cyclic Assembly

Organocatalysis is a promising field of research that has led to the development of many efficient and eco-friendly synthetic methods. Among the different applications of organocatalysis, spirocyclic assembly is of particular interest, as spirocyclic compounds are an important class of organic molecules with a wide range of biological and pharmaceutical activities. The Tamura reaction and 1,3-dipolar cycloaddition are two organocatalytic reactions that have been extensively used for spirocyclic assembly. Electron deficient alkenes are commonly used in these reactions, as they can undergo cycloaddition reactions with dipolarophiles to form a range of spirocyclic compounds. The use of organic catalysts in these reactions has many advantages over traditional metal-based catalysts, including low toxicity, low cost, and easy handling. In addition, organocatalysts can offer high enantioselectivity in many cases, which is crucial in the synthesis of biologically active compounds. Organocatalytic spirocyclic assembly involves the use of various chemical reactions, including Michael addition, acylation, alkylation, Mannich reaction, aldol reaction, Robinson annulation, and many others. The reaction conditions, catalysts, and substrates can all be optimized to achieve high yields and selectivity. The use of chiral organocatalysts can also lead to the synthesis of enantiomerically pure spirocyclic compounds. Lewis base and Brønsted base catalysis are the two main types of organocatalysis used in spirocyclic assembly. Both types of catalysis can offer unique advantages depending on the reaction conditions and substrates used. Moreover, the mechanism of organocatalytic reactions can be elucidated by various techniques, such as NMR spectroscopy, X-ray crystallography, and kinetic studies. The development of efficient and green methods for spirocyclic assembly is an important area of research, as it can lead to the synthesis of novel and biologically active compounds. Organocatalysis is a promising field in this regard, as it offers many advantages over traditional metal-based catalysis. Furthermore, the use of organocatalysts can lead to the development of new reactions and the modification of existing ones, thus expanding the toolbox of synthetic methods available to organic chemists. The work of RaviKiran Donthi and his colleagues in this field is an important contribution to the ongoing efforts to develop efficient and eco-friendly methods for spirocyclic assembly.

Mehr anzeigen
  • Sprache:
  • Englisch
  • ISBN:
  • 9783860910184
  • Einband:
  • Taschenbuch
  • Seitenzahl:
  • 206
  • Veröffentlicht:
  • 12. Oktober 2023
  • Abmessungen:
  • 152x11x229 mm.
  • Gewicht:
  • 307 g.
  Versandkostenfrei
  Versandfertig in 1-2 Wochen.
Verlängerte Rückgabefrist bis 31. Januar 2025
  •  

    Keine Lieferung vor Weihnachten möglich.
    Kaufen Sie jetzt und drucken Sie einen Gutschein aus

Beschreibung von Organocatalysis for Spiro-Cyclic Assembly

Organocatalysis is a promising field of research that has led to the development of many efficient and eco-friendly synthetic methods. Among the different applications of organocatalysis, spirocyclic assembly is of particular interest, as spirocyclic compounds are an important class of organic molecules with a wide range of biological and pharmaceutical activities. The Tamura reaction and 1,3-dipolar cycloaddition are two organocatalytic reactions that have been extensively used for spirocyclic assembly. Electron deficient alkenes are commonly used in these reactions, as they can undergo cycloaddition reactions with dipolarophiles to form a range of spirocyclic compounds. The use of organic catalysts in these reactions has many advantages over traditional metal-based catalysts, including low toxicity, low cost, and easy handling. In addition, organocatalysts can offer high enantioselectivity in many cases, which is crucial in the synthesis of biologically active compounds. Organocatalytic spirocyclic assembly involves the use of various chemical reactions, including Michael addition, acylation, alkylation, Mannich reaction, aldol reaction, Robinson annulation, and many others. The reaction conditions, catalysts, and substrates can all be optimized to achieve high yields and selectivity. The use of chiral organocatalysts can also lead to the synthesis of enantiomerically pure spirocyclic compounds. Lewis base and Brønsted base catalysis are the two main types of organocatalysis used in spirocyclic assembly. Both types of catalysis can offer unique advantages depending on the reaction conditions and substrates used. Moreover, the mechanism of organocatalytic reactions can be elucidated by various techniques, such as NMR spectroscopy, X-ray crystallography, and kinetic studies. The development of efficient and green methods for spirocyclic assembly is an important area of research, as it can lead to the synthesis of novel and biologically active compounds. Organocatalysis is a promising field in this regard, as it offers many advantages over traditional metal-based catalysis. Furthermore, the use of organocatalysts can lead to the development of new reactions and the modification of existing ones, thus expanding the toolbox of synthetic methods available to organic chemists. The work of RaviKiran Donthi and his colleagues in this field is an important contribution to the ongoing efforts to develop efficient and eco-friendly methods for spirocyclic assembly.

Kund*innenbewertungen von Organocatalysis for Spiro-Cyclic Assembly



Ähnliche Bücher finden
Das Buch Organocatalysis for Spiro-Cyclic Assembly ist in den folgenden Kategorien erhältlich:

Willkommen bei den Tales Buchfreunden und -freundinnen

Jetzt zum Newsletter anmelden und tolle Angebote und Anregungen für Ihre nächste Lektüre erhalten.