no
No, not yet.
Graphene is a sheet of Carbon atoms, or one layer of Graphite ("lead" in a pencil). A graphene filter is a filter made of graphene.
Graphene is pretty amazing. An adequate description of the properties is rather long. There is a link below to the properties section of an article on graphene.
Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.Roman body armor, as all other body armor, was used to protect the body.
Graphene is formed by peeling extremely thin layers of graphite off of a larger piece, in the original paper published on graphene it was done using tape.
Graphene is a very thin layer of graphite. It is so thin, it is so close to being invisible!
Under most circumstances, horses and elephants do not wear armor, but when they do wear armor, they do so for exactly the same reason that people wear armor. Since horses and elephants have both been used to carry soldiers in times of war, or to attack an enemy, they too require protection against the spears, arrows, or other weapons that might be used against them.
The molecular structure of graphene differ from the other allotropes of carbon diamond and graphite in that graphene consist of a single layer of atoms.
The Inca used bronze for the same reason everyone used it for ,tools ,weapons ,however they didn't use it for armor they still preferred there lighter cotton outfits.
graphene according to how much it can hold (calculator) and how dense it is.
It would take an elephant, balanced on a pencil, to break through a sheet of graphene the thickness of Saran Wrap."
Appropriately injected graphene (and boron nitride hBN) can allow energetics to get through it, offering the potential for using graphene layers as a barrier that blocks liquid atoms. They could even be used to gather hydro energy out of the atmosphere that could power electric generators with ambient space. The membranes are more effective at elevated temperatures and when covered with nanoparticles. Graphene could solve a major problem for fuel cells: fuel intersection for efficiency and durability.