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Alkylation and C-N bond Activation are Catalyzed by Alcohols

About Alkylation and C-N bond Activation are Catalyzed by Alcohols

In the field of organic chemistry, the use of alcohols as catalysts for C-N bond activation and alkylation reactions has garnered significant attention in recent years. Jagannath Rana, a renowned chemist, has contributed greatly to this area of research through his groundbreaking studies. Alcohols, a widely available and environmentally friendly resource, have proven to be effective catalysts for a variety of chemical reactions, including C-N bond activation and alkylation. This type of catalysis can be achieved with either homogeneous or heterogeneous catalysis. Homogeneous catalysis, in which the alcohol is completely dissolved in the reaction mixture, is widely used in laboratory-scale reactions. Heterogeneous catalysis, on the other hand, involves the use of a solid-supported alcohol catalyst, which can be recycled and reused. The activation of C-N bonds using alcohols as catalysts is a highly efficient and selective process. The reaction occurs by nucleophilic attack of the amide or other nitrogen-containing compound on the activated alcohol. The resulting intermediate can undergo alkylation by a variety of electrophiles, including alkyl halides, alkenes, and alkynes. The use of alcohols as catalysts for C-N bond activation and alkylation reactions has several advantages over traditional methods. First, alcohols are abundant and inexpensive, making them an attractive alternative to more costly catalysts. Additionally, alcohols are non-toxic and can be used in environmentally friendly, sustainable chemistry practices. Rana's research has focused on the use of metal catalysis for C-N bond activation and alkylation reactions using alcohols as catalysts. In particular, he has studied the use of palladium catalysts in these reactions, as palladium is a widely available and inexpensive metal with excellent catalytic activity. Rana's work has demonstrated that palladium-catalyzed C-N bond activation and alkylation using alcohols as catalysts can be highly selective, producing the desired products with high yields and minimal waste. Overall, the use of alcohols as catalysts for C-N bond activation and alkylation reactions is a promising area of research in the field of organic chemistry. Rana's contributions have advanced our understanding of this process and opened up new avenues for the development of sustainable, environmentally friendly chemical processes.

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  • Language:
  • English
  • ISBN:
  • 9798889955412
  • Binding:
  • Paperback
  • Pages:
  • 128
  • Published:
  • October 25, 2023
  • Dimensions:
  • 152x8x229 mm.
  • Weight:
  • 198 g.
Delivery: 1-2 weeks
Expected delivery: January 8, 2025

Description of Alkylation and C-N bond Activation are Catalyzed by Alcohols

In the field of organic chemistry, the use of alcohols as catalysts for C-N bond activation and alkylation reactions has garnered significant attention in recent years. Jagannath Rana, a renowned chemist, has contributed greatly to this area of research through his groundbreaking studies.
Alcohols, a widely available and environmentally friendly resource, have proven to be effective catalysts for a variety of chemical reactions, including C-N bond activation and alkylation. This type of catalysis can be achieved with either homogeneous or heterogeneous catalysis. Homogeneous catalysis, in which the alcohol is completely dissolved in the reaction mixture, is widely used in laboratory-scale reactions. Heterogeneous catalysis, on the other hand, involves the use of a solid-supported alcohol catalyst, which can be recycled and reused.
The activation of C-N bonds using alcohols as catalysts is a highly efficient and selective process. The reaction occurs by nucleophilic attack of the amide or other nitrogen-containing compound on the activated alcohol. The resulting intermediate can undergo alkylation by a variety of electrophiles, including alkyl halides, alkenes, and alkynes.
The use of alcohols as catalysts for C-N bond activation and alkylation reactions has several advantages over traditional methods. First, alcohols are abundant and inexpensive, making them an attractive alternative to more costly catalysts. Additionally, alcohols are non-toxic and can be used in environmentally friendly, sustainable chemistry practices.
Rana's research has focused on the use of metal catalysis for C-N bond activation and alkylation reactions using alcohols as catalysts. In particular, he has studied the use of palladium catalysts in these reactions, as palladium is a widely available and inexpensive metal with excellent catalytic activity. Rana's work has demonstrated that palladium-catalyzed C-N bond activation and alkylation using alcohols as catalysts can be highly selective, producing the desired products with high yields and minimal waste.
Overall, the use of alcohols as catalysts for C-N bond activation and alkylation reactions is a promising area of research in the field of organic chemistry. Rana's contributions have advanced our understanding of this process and opened up new avenues for the development of sustainable, environmentally friendly chemical processes.

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