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Examines the synthesis of graphene obtained from different natural raw materials as a low-cost environmentally friendly alternative that delivers a quality final product. Expert researchers review natural raw materials and waste product potential, methods of characterization, graphene synthesis considerations and important applications.
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 synthesisOutlines 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 productionPresents cutting-edge, recent advances in industrial pharmaceuticals and the technologies involved in medicinal and organic chemistryProvides a systematic discussion of each technology in organic synthesis, including main parameters and challenges
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