Abdullah M. Asiri

660.29

23

Trade Paperback

0128195398

9780128195390

Yes

Scholarly & Professional

9.2 in

7.5 in

TP156

2022-304185

English

462 Pages

Green Sustainable Process for Chemical and Environmental Engineering and Science : Sustainable Organic Synthesis

2020

Elsevier

Chemical & Biochemical, Chemistry / Industrial & Technical

Technology & Engineering, Science

Green Sustainable Process for Chemical and Environmental Engineering and Science: Sustainable Organic Synthesis provides an in-depth overview in the area of organic, pharmaceutical, engineering and environmental sciences, with a focus on the purification and extraction of fine chemicals, alternative green solvents, medicinal, analytical drugs, and bioactive compounds utilizing green chemistry protocols. It also focuses on the nanocatalysis, biocatalysis, solvent-free, recyclable organocatalysis, solid-supported reagents, heterogeneous polymer reusable catalysis, and CO2 conversion to commercial chemicals, utilizing industrial strategies such as flow-reactor, microwave, ultrasonics, ball-mill, photochemical and electrochemical methods. Covers a broad overview of sustainable organic synthesis Outlines eco-friendly organic synthesis using novel techniques and chemical processes, i.e., photochemical, electrochemical, microwave, bio-strategies, etc. Gives a detailed account of green, large-scale techniques in organic synthesis and their applications in pharmaceutical production Presents cutting-edge, recent advances in industrial pharmaceuticals and the technologies involved in medicinal and organic chemistry Provides a systematic discussion of each technology in organic synthesis, including main parameters and challenges, Green Sustainable Process for Chemical and Environmental Engineering and Science: Sustainable Organic Synthesis provides an in-depth overview in the area of organic, pharmaceutical, engineering and environmental sciences, with a focus on the purification and extraction of fine chemicals, alternative green solvents, medicinal, analytical drugs, and bioactive compounds utilizing green chemistry protocols. It also focuses on the nanocatalysis, biocatalysis, solvent-free, recyclable organocatalysis, solid-supported reagents, heterogeneous polymer reusable catalysis, and CO2 conversion to commercial chemicals, utilizing industrial strategies such as flow-reactor, microwave, ultrasonics, ball-mill, photochemical and electrochemical methods.

1. Introduction, parameters and advantages of greener organic synthesis 2. Atom-economy green organic synthesis 3. Microwave-assisted organic synthesis 4. Ultrasound-assisted organic synthesis 5. Bioenzyme-assisted organic synthesis 6. Micellar-assisted organic synthesis 7. Solvent-free organic synthesis 8. Green organic synthesis by carbon oxide conversion 9. Ionic liquids-assisted organic synthesis 10. Green organic synthesis in supercritical water 11. Sustainable organic synthesis by electrochemical protocol 12. Green organic synthesis by flow approach 13. Recyclable organocatalysis in organic synthesis 14. Organic synthesis by photochemical protocol 15. Organic synthesis by eco-friendly solvents beyond water 16. Sustainable organic synthesis by water vs supercritical water 17. Nanocatalysis in Sustainable organic synthesis 18. Biocatalysis in organic synthesis 19. Recoverable polymer catalysis in organic synthesis 20. Solid-state sustainable organic synthesis 21. Employing sustainable pathways for organic synthesis

Textbook

Elsevier

9780128195390