Protein cephalosporins cause multiple uses.
In the dental teeth, the researchers identified a complex protein and the remarkable characteristics can produce revolutionary progress in the production of biodegradable materials.
It can be processed through fibers and coatings, and is used in automatic recycling of substances that reduce the contamination of microbial contamination in intelligent clothing.
The research work was published by the Public Front of Chemistry.
Sale from the shoulder
Humanitate literally He smelled the earth with plastic. They create oceans Some continents coming from waste.
In the search of alternative materials, therefore, we will become different and ecological alternatives. for example biodegradable bioplastics.
Scientists at Pennsylvania State University highlighted the promising "future material" in the new research: Complex Protein from suckers tooth-tooth-colored teeth.
"Squid proteins are used to create advanced materials for energy, biomedicine, or even security and defense use," said Melik Demirel, chief researcher.
"In our research, we have concluded that plastics are an excellent alternative because they are environmentally friendly and sustainable production," he says.
The secret of various features
The advantage of the materials that make up the protein is its structure. Amino acid chains form large molecules or are hierarchized in hierarchical levels, multiple layers, repetitive, cylindrical, chaotic or regular.
The amino acid sequence of the proteins encodes DNA, so bioengineers can change and modify the structures properly assembled by the molecules.
This will affect the physical, chemical and biological properties of the following materials: elasticity, flexibility, strength, self-evaluation, optical and behavioral properties.
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The revolutionary celestial Cephalonia strengthens the entire body parts.
Source: NTNU Vitenskapsmuseet
Kalmarom will not hurt
One of the main advantages of SRT based materials is its eco-efficiency. They are easily and easily produced from renewable sources and without losing a single calf.
"We do not want to have nature and live calamity, so these proteins generate genetically modified bacteria," explains Melik Demirel.
They will help with myplasms
Proteins are naturally bio-based and biodegradable, SRT-based materials, which can therefore be used as an implantable biomedical sensor.
Additionally, it could remove one of the main sources of microplate contamination in the textile industry. According to authors, they can create a protective abrasive cover using microfibre emission cleaning machines.
The similar principle, according to scientists, can be used to obtain protection against chemical and biological weapons.
American scientists have added that squamer proteins can also be used to develop intelligent clothing that protects against air pollution.
Flexible component development: guidelines for handling, detecting or transmitting light diodes and optical displays, as they are solid glass and silicone materials.
Plastics do not match
"Nature creates intelligent materials to act as an environmental sensors and have self-evaluation and mechanical properties," says Demirele.
"These materials do not have special properties that we find in synthetic polymers, like plastics," the scientist continues, and their advantage is that bioengineering improves and refines.
Calamary protein-based technologies will be more widespread, however, according to research.
"We are working on technology to practice industrial processing for these materials," says Demirele.