Titlebook: Handbook of Biopolymers; Sabu Thomas,Ajitha AR,Bejoy Thomas Reference work 2023 Springer Nature Singapore Pte Ltd. 2023 Biopolymers.Biodeg

外露

Biotechnology Intelligence Unit are diverse and versatile class of materials and have a wide range of applications in various fields. They have great interest in the scientific community due to their excellent properties such as ease of handling, reliability, biodegradability, etc. They can be used as adsorbents, lubricants, cosm

Veneer

Tissue and Organ Regeneration in Adultso-friendly, and because they possess good mechanical properties. However, some of the intrinsic properties of biopolymer such as wettability limit their industrial application. Modification (physical/chemical) of biopolymers is an accepted technique to tune their surface properties and consequently

GLOOM

細(xì)胞

命令變成大炮

Recent Approaches Toward Bacterial Nanocellulose (BNC) Synthesisnatural polymer of substantial status in various technoindustrial applications owing to its implausible biological and physicochemical features. It has potential in the biomedical, food, paper, textile, and cosmetics industries. The feasible utilization of BNC in multidimensional areas is widely rel

有害處

Bacterial Nanocellulose from Agro-industrial Wastesesources. 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

Compatriot

Biopolymers from Marine Prokaryotesr the isolation and identification of the natural novel products, especially biopolymers. Biopolymers are the polymers produced by living organisms, including bacteria, fungi, algae, and plants. The wide variety, renewable nature, lower toxicity, and unique structural and physicochemical behavior, e

biopsy

Essential

Soy Protein Biopolymerals has gained popularity in recent years. Since they are less expensive and easier to produce than natural polymers, synthetic polymers are widely used. But they cause environmental contamination and are not biodegradable. Therefore, scientists advised choosing polymers that are naturally eco-frien

Bronchial-Tubes

Piezoelectric Properties of Biopolymersion to biocompatibility and biodegradability. Although a wide range of polymers such as polyvinylidene fluoride, are used to enhance the power generation, conversion efficiency, and storage capacity of different piezoelectric devices, biocompatibility is the significant property when bio-nanogenerat