Titlebook: Handbook of Biopolymers; Sabu Thomas,Ajitha AR,Bejoy Thomas Living reference work 20220th edition Biopolymers.Biodegradable Polymers.Chem

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書目名稱Handbook of Biopolymers影響因子(影響力)

書目名稱Handbook of Biopolymers影響因子(影響力)學科排名

書目名稱Handbook of Biopolymers網(wǎng)絡(luò)公開度

書目名稱Handbook of Biopolymers網(wǎng)絡(luò)公開度學科排名

書目名稱Handbook of Biopolymers被引頻次

書目名稱Handbook of Biopolymers被引頻次學科排名

書目名稱Handbook of Biopolymers年度引用

書目名稱Handbook of Biopolymers年度引用學科排名

書目名稱Handbook of Biopolymers讀者反饋

書目名稱Handbook of Biopolymers讀者反饋學科排名

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Albumin,eering applications of albumin-based hydrogels influenced by chemical crosslinking, drug-coating techniques, pH, and thermal induction. To provide context, we first examine the nanotechnological techniques of developing albumin nanoparticles. Though albumin hydrogels generally find application in ti

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,Amylose–Amylopectin Ratio,le materials. The physicochemical characteristics and subsequent uses of starch are dependent on their botanical origin, which has a big impact on the granule structure and amylose to amylopectin ratio, which ranges from 15:85 to 35:65, with the exception of waxy starch and high amylose maize starch

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Applications of Biopolymer-Based Nanofibers and Nanomembranes,iving entity. The use of these polymers has increased considerably in recent years as the industry moves away from unsustainable fossil fuel supplies and comes toward a softer and more sustainable eco-friendly approach. The significant information about biopolymer-based nanostructures is included in

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Bacterial Nanocellulose From Agro-Industrial Wastes,esources. Cellulose is mostly found in higher plants, but it is also created by marine organisms, particularly Tunicates, types of algae, and bacteria, by enzymatic and chemical processes, with a nanocellulose or nanofiber or nanocrystalline cellulose structure. For environmental sustainability, it

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Biodegradation of Biopolymers: Reflections Towards Possible Biomagnification,rs are produced in large amounts globally, which end up in the landfill. Their accumulation in the environment can be a major threat to human health and ecology. Shifting to biodegradable polymers can reduce the waste disposal problems associated with conventional petroleum-based polymers. Various b

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