2 Synthesis of quinazolinone and quinazoline derivatives using green chemistry approach
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Simranpreet K. Wahan
Abstract
Green chemistry has been most compelling area of research. Green chemistry is vital to long-term sustainability, not only because of its fundamental notion of reducing the use and manufacture of hazardous materials, but also because of its broad applicability as one of the most efficient and problem-solving pathways for the synthesis of new materials. Various chemists have studied a plethora of strategies to lessen the release of hazardous chemical waste, waste material recyclization and reuse. New techniques have been created based on a green chemistry strategy that includes the utilization of catalysts, nanosized materials and composites, such as metal and nonmetal nanoparticles, their oxides and salts, and different heterocyclic rings. Quinazolines and quinazolinones are biologically significant heterocyclic rings with a wide range of characteristics. In a summary, this chapter focuses on recent novel synthesis methods for quinazoline and quinazolinone derivatives, which are vital to humanity.
Abstract
Green chemistry has been most compelling area of research. Green chemistry is vital to long-term sustainability, not only because of its fundamental notion of reducing the use and manufacture of hazardous materials, but also because of its broad applicability as one of the most efficient and problem-solving pathways for the synthesis of new materials. Various chemists have studied a plethora of strategies to lessen the release of hazardous chemical waste, waste material recyclization and reuse. New techniques have been created based on a green chemistry strategy that includes the utilization of catalysts, nanosized materials and composites, such as metal and nonmetal nanoparticles, their oxides and salts, and different heterocyclic rings. Quinazolines and quinazolinones are biologically significant heterocyclic rings with a wide range of characteristics. In a summary, this chapter focuses on recent novel synthesis methods for quinazoline and quinazolinone derivatives, which are vital to humanity.
Chapters in this book
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors XIII
- 1 Copper nanoparticles catalyzed carbon– heteroatom bond formation and synthesis of related heterocycles by greener procedures 1
- 2 Synthesis of quinazolinone and quinazoline derivatives using green chemistry approach 33
- 3 Green synthesis of various saturated S-heterocyclic scaffolds: an update 49
- 4 Cu-Catalysed tandem reactions for building poly hetero atom heterocycles-green chemistry tool 75
- 5 Recent developments in the green synthesis of biologically relevant cinnolines and phthalazines 101
- 6 Synthesis, properties and catalysis of quantum dots in C–C and C-heteroatom bond formations 187
- 7 Synthesis of bioactive natural products and their analogs at room temperature–an update 259
- 8 Synthesis of bioactive scaffolds catalyzed by agro-waste-based solvent medium 287
- 9 One-pot multi-component synthesis of diverse bioactive heterocyclic scaffolds involving 6-aminouracil or its N-methyl derivatives as a versatile reagent 331
- 10 Conceptual design and cost-efficient environmentally Benign synthesis of betalactams 357
- Index 389
Chapters in this book
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors XIII
- 1 Copper nanoparticles catalyzed carbon– heteroatom bond formation and synthesis of related heterocycles by greener procedures 1
- 2 Synthesis of quinazolinone and quinazoline derivatives using green chemistry approach 33
- 3 Green synthesis of various saturated S-heterocyclic scaffolds: an update 49
- 4 Cu-Catalysed tandem reactions for building poly hetero atom heterocycles-green chemistry tool 75
- 5 Recent developments in the green synthesis of biologically relevant cinnolines and phthalazines 101
- 6 Synthesis, properties and catalysis of quantum dots in C–C and C-heteroatom bond formations 187
- 7 Synthesis of bioactive natural products and their analogs at room temperature–an update 259
- 8 Synthesis of bioactive scaffolds catalyzed by agro-waste-based solvent medium 287
- 9 One-pot multi-component synthesis of diverse bioactive heterocyclic scaffolds involving 6-aminouracil or its N-methyl derivatives as a versatile reagent 331
- 10 Conceptual design and cost-efficient environmentally Benign synthesis of betalactams 357
- Index 389
