In an article recently published in the open-access journal Nanomaterials, researchers discussed the potential of few-layered graphene additives in effectively tuning the performance of conductive silicon compounds.
In the recent study published in the journal Molecules, researchers studied the characterization and growth of graphene on different types of copper (Cu) surfaces.
Writing in the journal Applied Surface Science, a team of researchers from the Air Force Research Laboratory has analyzed the electronic structure and electron transport properties of patterned graphene using first-principles computational modeling. The paper is currently in the pre-proof stage of publication.
In an article recently published in the open-access journal Polymers, researchers reported the development of oil-removing absorbents made of highly reusable, biomimetic, and hydrophobic graphene/polyvinyl alcohol/cellulose nanofiber aerogels.
In an article recently published in the open-access journal Coatings, researchers discussed the effect of graphene oxide (GO) additions on a rust converter primer's corrosion resistance.
In an article recently published in the journal ACS Central Science, researchers discussed the potential of precise carbon dioxide (CO2) reduction for the development of bilayer graphene.
In an article recently published in the journal Results in Physics, the researchers presented a strategic approach for the development of ultra-compact graphene-based plasmonic devices. They also discussed the reconfiguration capabilities of these devices.
Wood-plastic composites and natural-fiber-reinforced composites have been used in construction since the 1990s, replacing materials such as wood planks, lumber, and metals.
A study in the journal Results in Materials explores the synthesis of graphene nanosheets from plastic waste.
In a recent study published in the open-access journal Science Reports, researchers analyzed the effect of twist angle on optical and electrical properties of twisted bilayer graphene (tBLG). They fabricated in situ tBLG with twist angles that can be continuously tuned over a wide range with high precision. This finding opens a new path for the applicability of twistronic devices.
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