A solar emulsion evaporator built with graphene oxide and carbon nanotubes adapts to oil, salt, and microbes, maintaining ...

New findings reveal that organosulfate groups, not carboxyls, control graphene oxide's surface charge in water, challenging long-standing models and reshaping its chemical profile. (Nanowerk Spotlight ...

Graphene's journey from discovery to industrial use has been marked by impressive progress. It was first discovered in 2004, ...

Researchers have boosted concrete strength by nearly 60 % using a mix of graphene oxide and steel fibers. This could be a non-destructive way to improve durability in modern construction. Image Credit ...

Current food packaging often relies on plastics and toxic PFAS coatings, which pose environmental and health risks and are difficult to recycle or compost. Researchers developed a non-toxic, ...

GO primarily refers to an oxidized form of graphene that is hydrophilic and dispersible in water. GO nanoflakes possess high surface area, excellent mechanical strength, and superior optical ...

The new beta-cyclodextrin (βCD) modified graphene oxide (GO-βCD) membrane with nanoscale channels developed by the researchers at monash is a game changer for this. Not only has the team managed to ...

This article compares lithium-ion and graphene batteries, analyzing sustainability factors like production energy, resource ...

Graphene, a “wonder material” that could help solve some of humanity’s deepest problems, has cleared a major hurdle towards practical uses. Graphene is the world’s thinnest, super-strong and ...

Graphene oxide and reduced graphene oxide are used in the medical industry, wastewater treatment, and biomedical technologies. Despite its advantages, graphene faces competition from carbon nanotubes ...