Green Sustainable Process for Chemical and Environmental Engineering and Science: Organic Synthesis in Water and Supercritical Water provides an in-depth review of purification and extraction methods for medicinal, analytical, engineering and bioactive compounds utilizing green chemistry protocols. It focuses on the synthesis of natural products and drugs, using industrial green solvents, water, supercritical water, and more. The book explores applications in organic synthesis and processing, including aqueous and non-aqueous promoted reactions. Aqueous media and supercritical water involved in organic synthesis are discussed for industrial use. Final sections cover green solvent assisted organic synthesis, such as addition, rearrangement, condensation, and more.
Green Sustainable Process for Chemical and Environmental Engineering and Science: Organic Synthesis in Water and Supercritical Water provides an in-depth review of purification and extraction methods for medicinal, analytical, engineering and bioactive compounds utilizing green chemistry protocols. It focuses on the synthesis of natural products and drugs, using industrial green solvents, water, supercritical water, and more. The book explores applications in organic synthesis and processing, including aqueous and non-aqueous promoted reactions. Aqueous media and supercritical water involved in organic synthesis are discussed for industrial use. Final sections cover green solvent assisted organic synthesis, such as addition, rearrangement, condensation, and more.
1. Introduction
2. Oxidation and reduction reactions in water
3. Oxidation and reduction reactions in supercritical water
4. Micelle-assisted organic synthesis in water
5. Organic synthesis in aqueous vs non-aqueous media
6. Protection and deprotection reactions in water
7. Regioselective synthesis in water
8. Stereoselective organic synthesis in water
9. Stereospecific organic synthesis in water
10. Green organic synthesis in supercritical water
11. Addition-type reactions in water
12. Condensation reactions in water
13. Alkylation reactions in water
14. Ring-opening reactions in water
15. Value-added chemical synthesis in supercritical water
16. Organometallics synthesis in supercritical water
17. Allylation reactions in water
18. Olefin methasis in water
19. Phenolic compounds synthesis in water
20. Cycloadditions and Diels-Alder reactions in water
21. Fluoroorganics in water
22. Polymer synthesis in water and supercritical water
23. Heterocyclics synthesis in water
24. Hydrogenation reactions in water
25. Cyclodextrin-assisted organic synthesis in water
26. Biological-active organic synthesis in water
27. Catalyst-free organic synthesis in water
28. Multi component organic synthesis in water
29. Grignard reactions in water
30. C-H activation reactions in water
31. Carbohydrate synthesis in supercritical water
32. C-N formation reactions in water
33. Coupling reactions in water
34. Bio-fuel production in water
35. Halide synthesis in water
36. Employing green catalysis for organic synthesis in
supercritical water
37. State of the art and perspectives of aqueous organic synthesis
Dr. Inamuddin is an Assistant Professor at the Department of
Applied Chemistry at the Zakir Husain College of Engineering and
Technology, Aligarh Muslim University, Aligarh, India. He has
extensive research experience in multidisciplinary fields of
analytical chemistry, materials chemistry, electrochemistry,
renewable energy, and environmental science. He has worked on
different research projects funded by various government agencies
and universities and is the recipient of several awards, including
the Fast Track Young Scientist Award and the Young Researcher of
the Year Award 2020, Aligarh Muslim University, India. He has
published nearly 200 research articles in various international
scientific journals, 18 book chapters, and numerous edited books
with well-known publishers.
Dr. Rajender Boddula is currently working as CAS-PIFI Fellow in the
CAS Key Laboratory of Nanosystems and Hierarchical Fabrication,
National Center for Nanoscience and Technology, Beijing, China. He
has published many scientific articles in international
peer-reviewed journals and has authored nine book chapters, and
also serving as editorial board member and referee for reputed
international peer-reviewed journals. His specialized areas of
energy conversion and storage technologies, which include
nanomaterials, graphene, polymer composites, heterogeneous
catalysis, photoelectrocatalytic water splitting, biofuel cell, and
supercapacitor applications Prof. Abdullah M. Asiri is the Head of
the Chemistry Department at King Abdulaziz University since October
2009 and he is the founder and the Director of the Center of
Excellence for Advanced Materials Research (CEAMR) since 2010 till
date. He is the Professor of Organic Photochemistry. His research
interest covers color chemistry, synthesis of novel photochromic
and thermochromic systems, synthesis of novel coloring matters and
dyeing of textiles, materials chemistry, nanochemistry and
nanotechnology, polymers and plastics. A major achievement of Prof.
Asiri is the discovery of tribochromic compounds, a class of
compounds which change from slightly or colorless to deep colored
when subjected to small pressure or when grind. This discovery was
introduced to the scientific community as a new terminology
published by IUPAC in 2000. This discovery was awarded a patent
from European Patent office and from UK patent. He is also a member
of the Editorial Board of various journals of international repute.
He is the Vice- President of Saudi Chemical Society (Western
Province Branch). He holds four USA patents, more than 800
Publications in international journals, seven book chapters, and
ten books
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