same here ! :(

Unfortunately, no. For graphene armor, you need large continuous tiles of graphene, a way to anchor them securely, and significantly many layers. These graphene flakes on plastic look like they're too small and chaotically adjoined to provide much ballistic protection. With small flakes, the practical strength limit isn't the material itself, it's the strength of the bond it forms with its surroundings and the size compared to the projectile.

@@mattbrody3565 I've already figured it out you take the Kevlar laser cut it to size you run a laser at low low low frequency over the Kevlar it creates graphene then you take flash graphene mix it with the resins and hardeners at 3% strengthening the resins layer after layer of the resins and the Kevlar front and back being lasered creating the graphing on the Kevlar fabric will make a badass bulletproof vest. Iq 140 sir lol

Think about graphite. When I have a powder of it it's black. Basically, there are small flakes of carbon sheets bundled up together. Graphene is just those stacks but reduced to a very few or even a single flake. As of today, there is no way to make a large, perfect, 1 atom thick sheet of Graphene. All we have are flakes.

But can we call it graphene? And those stacks of flaks work line graphene? Ir graphite? Because if they are flakes then they should have not the same behaviour. I think.

Today's graphene had somewhat of the properties true graphene has. Still, it is better than using graphite in electronics. If you want to see it in action, take a look at Robert Murray-Smith's KZbin channel.

@ Pedro Lopes It doesn't, but the flakes are small enough and close enough that electrons can still use quantum tunneling to travel from flake to flake. This method probably wont be used to make a porous membrane that can separate salt from water, or have many piezoelectric applications, but its still electrically conductive. And considering its made entirely out of organic materials, not only is that impressive on its own, but it could be incredibly cheap to scale up and mass produce, as well as being renewable, sustainable, and environmentally friendly. Imagine computers that you can compost. And as far as we know, this could be the first step toward mass producing true graphene. I read an article recently that claimed that a laser induced phase change in porous graphene while still in a liquid state could allow the graphene flakes to assemble into sheets. Best of all this could be done at under 300 degrees Celsius, while still on a polymer substrate. Its a theory at this point, but based on my limited understanding, it sounds pretty solid to me.

i believe it is a C02 laser engraver and from may searching on other LiG papers that reference the rice uni work it seems they used a 3.7w laser engraver on kapton tape.

There is no chemical reaction needed. Capacitors store pure electricity. You can look it up for more info.

ahh its capacitors...i like store pure electricity but the capacitors have low density of storage and cant be used like recipient of storage.

xirt us CO2

universal laser XLS10MWH laser system with Multiwave Hybrid technology.

i still think this kapton tape and 3.7w laser engraver technique is much faster and easier once setup than his eesd but i do love me robert for putting up alot of his work for us online.

Bartosz Barejko prove it