In a paper recently published in the journal Polymers, researchers aimed to develop an active polyvinyl alcohol (PVA) and corn starch-based thermoplastic starch (TPS) film to be used in food packaging equipped with the antioxidant and antimicrobial properties of watermelon rind extract combined with a glycerol plasticizer.
A paper recently published in the journal ACS Applied Electronic Materials reviewed the use of iron disulfide/pyrite in solar cells to improve their efficiency.
A new study in Sustainability has reviewed the applications of biochar for pharmaceutical pollutant removal strategies.
A team of researchers recently published a paper in the journal Environmental Research that comprehensively reviewed cellulase enzyme-producing marine actinobacteria in the context of bioenergy generation.
Scientists from Donghua University in Shanghai’s College of Materials Science and Engineering have presented a comprehensive and timely review of the uses of silk fibroin as a biomaterial. Their findings have appeared online in a pre-proof paper in the journal Materials Today Bio.
When exposed to sunlight, a transparent protective coating material that can self-heal in 30 minutes has been created.
The demand for food high in protein is anticipated to rise along with the aging and expanding global population.
A team of researchers recently published a paper in the Journal of Industrial and Engineering Chemistry that demonstrated the preparation of self-healing, fatigue-resistant, and antifreeze supramolecular hydrogels for stretchable sensors using a simple one-step method.
A dual-phase, nanostructured high-entropy alloy that has been 3D printed by researchers from the University of Massachusetts Amherst and the Georgia Institute of Technology is stronger and more ductile than other cutting-edge additively manufactured materials, which could lead to better-performing components for use in aviation, healthcare, energy, and transportation.
On a substrate, monomer chains are formed near create polymer brush films. The monomers, which at the nanoscale resemble “bristles,” create a very useful and adaptable covering that can specifically adsorb or repel a range of chemical or biological compounds.
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