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Ultrathin Heteroprotein Film - IAS Academy In Coimbatore
Ultrathin Heteroprotein Film - IAS Academy In Coimbatore
Scientists have developed ultrathin isoprotein films with excellent thermal, mechanical, and pH stability, paving the way for the expansion of films in the biomedical and food packaging industries. These films are much thinner than other protein or plastic films.
They are soft and thin and have the advantage of being more flexible than other films. In the recent past, different research groups have reported several modifications to these protein membranes with the help of suitable heteroprotein complexes. These complexes are usually developed from bulk solutions.
A research team from the Physical Sciences Department of the Institute of Science and Technology (IASST), an autonomous agency under the Ministry of Science and Technology, has successfully developed ultrathin monolayer protein membranes composed of two globular proteins: bovine serum albumin (BSA) and Lysozyme (Lys). They used a technique known as using the Langmuir-Blodgett (LB) technique, which makes the films nanometer-thick.
Benefits of Ultrathin Heteroprotein Film:
Thinner compared to other protein or plastic films. They are soft and thin and have the advantage of being more flexible than other films. In the recent past, different research groups have reported several modifications to these protein membranes with the help of suitable heteroprotein complexes.
These complexes are usually developed from bulk solutions. BSA and Lys films can be used to fabricate highly stable biodegradable films of different protein complexes to expand their applications in thin film technology.
Different physicochemical approaches, such as parameter changes or the incorporation of different fatty acid or polyol moieties (glycerol, starch, gelatin, etc.) into this protein complex, allow the films to be used independently for various applications.
Food Packaging:
Scientists from the Guwahati Advanced Institute of Science and Technology (IASST), an autonomous agency under the Ministry of Science and Technology, have developed ultra-thin isoprotein films with excellent thermal, mechanical and pH stability, leading to more films in the food packaging industry Applications.
These films are much thinner than other protein or plastic films. They are thin, delicate, and more flexible than other films. A number of modifications to these protein membranes using appropriate heteroprotein complexes have been recently reported by different research groups. Most of these complexes are produced from bulk solutions.
About Ultrathin Heteroprotein Film:
Its excellent thermal, mechanical and pH stability can pave the way for expanded applications of the film in the biomedical and food packaging industries. These films are much thinner than other protein or plastic films. They are soft and have the advantage of being more flexible than other films. It can be used to fabricate highly stable biodegradable films of different protein complexes to expand its application in the field of thin film technology.
Uses:
This could pave the way for expanding the use of films in the biomedical and food packaging industries. Films of this protein complex of BSA and Lys can be used to fabricate highly stable biodegradable films of different protein complexes to expand their applications in the field of thin film technology. Different physicochemical approaches, such as parameter changes or the incorporation of different fatty acid or polyol moieties (glycerol, starch, gelatin, etc.) into this protein complex, allow the films to be used independently for various applications.
What is a Thin Film:
A thin film is a layer of material that varies in thickness from a fraction of a nanometer (monolayer) to a few micrometers. Thin film deposition is the process of creating and depositing thin film coatings on substrate materials. These coatings can be made from many different materials, from metals to oxides to compounds.
Thin film deposition is an important manufacturing step in the production of many optoelectronic, medical devices and products, including consumer electronics, semiconductor lasers, LED displays, semiconductors, precision optics, and medical implants.
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