Titlebook: Handbook of Biodegradable Materials; Gomaa A. M. Ali,Abdel Salam H. Makhlouf Living reference work 20220th edition Biodegradation.Nanocom

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Think Tanks and Power in Foreign Policywere reflected in bone tissue engineering progress. Nanocomposites bone scaffolds can provide for outstanding effects in the repairing process of bone defects. In the bone regeneration area, the biodegradability of nanocomposites bone scaffolds allows a superior structural performance. This chapter

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https://doi.org/10.1007/978-3-658-18522-0waste management is challenging due to its non-biodegradability, waste accumulation, and escalating water and land contamination problems in the twenty-first century. The biodegradability of plastics is additionally favored because of the increased use of plastics and mounting demands on the existin

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https://doi.org/10.1007/978-3-658-06858-5nate, carrageenan, agar, starch, ulvan, porphyran, fucoidan, and cellulose are promising candidates for the development of biobased plastics. Similarly, macromolecules such as polyhydroxyalkanoates and proteins could be utilized in bioplastic preparation. These bioplastics have been exploited in the

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https://doi.org/10.1007/978-1-4684-1101-0ecent years from the biodegradation perspective. The current chapter presents a comprehensive overview of the biodegradable polymeric materials that are now considered an alternative to synthetic non-biodegradable materials in terms of their waste management advantages for building an ultimate pollu

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Aesthetic Judgment: The Legacy of Kant physiological properties. Consequently, they are widely employed in many biomedical applications including wound healing, skin regeneration, and bone regeneration as bioscaffolds that mimic the complex 3D environment of cells in vivo. Thus, these natural polymer–based bioscaffolds enhance cell adhe

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