Amsterdam, Netherlands: Elsevier, 2018. — 494 p. — ISBN 978-0-444-63774-1.Biomass as Renewable Raw Material to Obtain Bioproducts of High-tech Value examines the use of biomass as a raw material, including terrestrial and aquatic sources to obtain extracts (e.g. polyphenols), biofuels, and/or intermediates (furfural, levulinates) through chemical and biochemical processes. The book also covers the production of natural polymers using biomass and the biosynthetic process, cellulose modified by biochemical and chemical methods, and other biochemicals that can be used in the synthesis of various pharmaceuticals. Featuring case studies, discussions of sustainability, and nanomedical, biomedical, and pharmaceutical applications, Biomass as Renewable Raw Material to Obtain Bioproducts of High-tech Value is a crucial resource for biotechnologists, biochemical engineers, biochemists, microbiologists, and research students in these areas, as well as entrepreneurs, policy makers, stakeholders, and politicians. Reviews biomass resources and compounds with bioactive properties Describes chemical and biochemical processes for creating biofuels from biomass Outlines production of polysaccharides and cellulose derivatives Features applications in the fields of medicine and pharmacy.Contents: Biomass for Fuels and Biomaterials Microalgae as Renewable Raw Material for Bioproducts: Identification and Biochemical Composition of Microalgae From a Raceway Pond in The Netherlands Macroalgae Biomass as Sorbent for Metal Ions Integrated Processing of Biomass Resources for Fine Chemical Obtaining: Polyphenols Assessing the Sustainability of Biomass Use for Energy Production: Methodology for Involving Stakeholders in Decision Making Biodiesel, a Green Fuel Obtained Through Enzymatic Catalysis Catalytic Approaches to the Production of Furfural and Levulinates From Lignocelluloses Biomass-Derived Polyhydroxyalkanoates: Biomedical Applications Biochemical Modification of Lignocellulosic Biomass Chemically Modified Polysaccharides With Applications in Nanomedicine Cellulose-Based Hydrogels for Medical/Pharmaceutical Applications Thermoresponsive Supramolecular Hydrogels Comprising Diblock Methylcellulose Derivatives.
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