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Elsevier

Synthesis of 6- and 7-Membered Heterocycles

The Role of DMF

  • 1st Edition - September 21, 2023
  • Latest edition
  • Author: Navjeet Kaur
  • Language: English

Synthesis of Six- and Seven-Membered Heterocycles: The Role of DMF and its Synthesis compares different synthetic approaches using DMF, including the advantages and disadvant… Read more

Description

Synthesis of Six- and Seven-Membered Heterocycles: The Role of DMF and its Synthesis compares different synthetic approaches using DMF, including the advantages and disadvantages of those reactions, green methods, and the sustainability of reported synthetic methodologies, especially the microwave methods. The book presents several methodologies for the synthesis of six- and seven-membered heterocyclic compounds using dimethylformamide. Users will find the most up-to-date information in this fast-moving field which can be particularly challenging. With DMF drawing the attention of synthetic organic chemists, this book will help readers understand further developments in the uses of dimethylformamide beyond just its use as a polar solvent.

As it can be expected that the use of dimethylformamide as a precursor will continue to grow in organic synthesis with new applications in sustainable and green chemistry, this book provides an ideal primer on the topics covered.

Key features

  • Compares different methods, reagents, reaction conditions, advantages and disadvantages
  • Discusses and compares different methodologies with green techniques
  • Includes reaction schemes, reaction mechanisms and the structure of reactive intermediates

Readership

Postgraduate students and researchers in the area of Organic and Medicinal Chemistry, Chemists working in industry

Table of contents

1: Synthesis of pyridines 1.1 Introduction 1.2 Synthesis of pyridinesReferences 2: Synthesis of fused pyridines and piperidines 2.1 Introduction 2.2 Synthesis of pyridines fused with carbocycles 2.3 Synthesis of pyridines fused with five-membered heterocycles 2.4 Synthesis of pyridines fused with six-membered heterocycles 2.5 Synthesis of piperidines References 3: Synthesis of quinolines 3.1 Introduction 3.2 Synthesis of quinolines 3.3 Synthesis of fused quinolines 3.4 Synthesis of quinolines fused with five-membered heterocycles 3.5 Synthesis of quinolines fused with six-membered heterocycles References 4: Synthesis of isoquinolines 4.1 Introduction 4.2 Synthesis of isoquinolines 4.3 Synthesis of fused isoquinolines References 5: Synthesis of pyrimidines 5.1 Introduction 5.2 Synthesis of pyrimidines 5.3 Synthesis of pyrimidines fused with five-membered heterocycles 5.4 Synthesis of pyrimidines fused with six-membered heterocycles 5.5 Synthesis of pyrimidines fused with higher-membered heterocycles References 6: Synthesis of pyridazines, pyrazines, quinazolines, quinoxalines, triazines, and tetrazines 6.1 Introduction 6.2 Synthesis of pyridazines 6.3 Synthesis of fused pyridazines 6.4 Synthesis of pyrazines 6.5 Synthesis of fused pyrazines 6.6 Synthesis of quinazolines 6.7 Synthesis of fused quinazolines 6.8 Synthesis of quinoxalines 6.9 Synthesis of triazines and tetrazinesReferences7: Synthesis of pyrans and benzopyrans 7.1 Introduction 7.2 Synthesis of pyrans 7.3 Synthesis of pyrans fused with heterocycles 7.4 Synthesis of benzopyransReferences8: Synthesis of fused benzopyrans 8.1 Introduction 8.2 Synthesis of benzopyrans fused with benzene 8.3 Synthesis of benzopyrans fused with heterocyclesReferences9: Synthesis of oxazines, benzoxazines, thiopyrans, and thiazines 9.1 Introduction 9.2 Synthesis of oxazines 9.3 Synthesis of benzoxazines 9.4 Synthesis of thiopyrans 9.5 Synthesis of thiazines References 10: Synthesis of azepines, diazepines, triazepines, oxepines, oxazepines, and thiapines 10.1 Introduction 10.2 Synthesis of azepines 10.3 Synthesis of diazepines 10.4 Synthesis of triazepines 10.5 Synthesis of oxepines 10.6 Synthesis of oxazepines 10.7 Synthesis of thiapines References

Product details

  • Edition: 1
  • Latest edition
  • Published: September 23, 2023
  • Language: English

About the author

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Navjeet Kaur

Dr. Navjeet Kaur, Ph.D. (Chemistry, Banasthali Vidyapith, 2014) is currently an Associate Professor in the Department of Chemistry and Division of Research & Development at Lovely Professional University, Punjab. She specializes in organic synthetic and medicinal chemistry, with a focus on heterocyclic compound synthesis. With 14 years of teaching and research experience, she has guided five Ph.D. scholars and numerous MSc students, and has published over 200 research papers, reviews, books, and chapters. She is the author of nineteen books with leading publishers including CRC Press, Elsevier, and Springer Nature.

Dr. Kaur has consistently ranked among the World’s Top 2% Scientists in subject-wise analyses by Stanford University (2018–2025). She has received awards such as the Prof. G. L. Telesara Award and Best Paper Presentation Award, and has served as Editor-in-Chief of Advanced Chemicobiology Research. Beyond academia, she has contributed to rural development initiatives through NSS and UBA, and holds a Sikh Missionary certification.

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Affiliations and expertise
Lovely Professional University, India

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