Researchers reviewed the combination of synergistic phosphorus-based flame retardants (P-FRs) and expandable graphite (EG) in a new study.
Nanomaterials remain a significant growth area with the potential to enable a wide range of next-generation technologies. Although the material is on a nanoscale, most manufacturers incorporate them into some form of intermediate to be used. An emerging area for nanocarbons is making "macro-scale" CNTs. This is a misnomer but is used to encompass CNT yarns, sheets, or veils.
New research demonstrates the feasibility of using graphene to control hydrogen isotopes, specifically tritium.
A group of researchers recently published a paper in the journal ACS Energy Letters that demonstrated the feasibility of using single-site titanium (Ti) catalysts for hydrogen (H2) spillover and storage on graphene.
A new paper in Nanomaterials has demonstrated the development of novel 3D-printed polymer composites incorporating fillers such as graphene using a solvent-free process.
In an article recently published in the journal Colloids and Surfaces A: Physicochemical and Engineering Aspects, researchers discussed the Dohelert design (DOE)-based green synthesis optimization of graphene quantum dots (GQDs) for dye photodegradation application.
Scientists have collaborated on a new paper in the Journal of Molecular Liquids on the influence of graphene nanoparticles on oil viscosity.
A team of researchers demonstrated the feasibility of using thermally reduced large-sheet graphene oxide (LGO) for high-efficiency microwave absorption (MA).
Writing in Materials, a team of scientists from the Delft University of Technology in the Netherlands have reported the direct CVD growth of graphene on wafer-thin films using a platinum thin-film catalyst.
In an article recently published in the open-access journal Materials, researchers discussed the peeling and sliding of graphene nanoribbons under horizontal drag.
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