Titlebook: Lignin; Biosynthesis and Tra Swati Sharma,Ashok Kumar Book 2020 Springer Nature Switzerland AG 2020 Lignin.Biofuel.Degradation.Biosynthesis

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Lignin as Potent Industrial Biopolymer: An Introduction,sic biomass, paper and pulp industry. It has not been well explored for industrial applications due to its poor solubility and complex molecular structure. Hence, since last two decades, lignin has gained the attention of researchers as a raw material for the synthesis of value-added products of com

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Structure and Characteristics of Lignin,not been exploited effectively due to its natural complexity and high stability. Therefore, continuous and vigorous efforts should be paid to achieve a better understanding of the chemical structure and composition of lignin in order to design more efficient and greener degradation processes, and fu

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Analysis of Lignin Using Qualitative and Quantitative Methods,of complex phenolic compounds. Its composition makes it an important natural renewable raw material for production of a number of commodity products. Lignin is also commercially produced as kraft lignin during paper manufacturing. Naturally occurring lignin plays significant biological role affectin

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Chemical Modification of Lignin by Polymerization and Depolymerization,y giving it a profitable use has been burning it in a recovery container for steam production which provides enough energy to power their processes. However, the increase in production has left a higher volume of residual lignin than energy demand. So this vast amount of lignin produced as a by-prod

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Lignin and Its Composites,r modification and chemical reactions. This chapter deals with the capability of lignin for reinforcing other materials in polymer biocomposites, especially incorporation of lignin in thermoplastic and thermoset composites. Lignin can be composited with thermoplastic polymers (polyethylene, polyprop

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,Advances in Nanotechnology based Strategies for?Synthesis of Nanoparticles of Lignin, category. Among the biorenewable polymers known, Lignin is one of the most vastly used polymers. It is the most abundant natural polymer after cellulose. Lignin can be an excellent material having a potential of replacing other synthetic polymers in drug delivery and biomedical applications due to

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Synthesis and Applications of Lignin-Derived Hydrogels,ing utilized for the preparation of versatile materials. These functional moieties also offer various properties, such as adhesiveness, mechanical strength, antioxidant, antimicrobial and UV-protection properties to its derivatives. Hydrogels are three-dimensional highly hydrated networks of natural