Do you know that what is that thing that is stronger than steel, harder than the diamond and million times thinner than the paper?
Yes, we are talking about Graphene! Graphene is a supermaterial that is best made of a single layer of bonded Carbon atoms.
That is on the whole considered to be two-dimensional as for the reason that it is the height of just one of the single atom.
It is one of the strongest and the thinnest material ever discovered out.
There are quite a few amazing applications of Graphene that will bring transformation in your future! Let’s have a look at them!
1. Unbreakable Smartphones
Are you tired of getting your cash drop and does not have time to repair your delicate and frequently shattered iPhone screen?
Now this will become part of yours! In the future time, the touchscreens will be all moving from glass to plastic which will make them effectively unbreakable.
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2. Wearable Technology
After getting massive success in the latest Apple watches, now you would be thinking around what is next for wearable technology.
This bulky iWatch will not be desirable anymore for the people, as the unbreakable and ultra-bendy graphene watches of the future hit the market.
Graphene is all set to add our phone watches with the innovation impression touch.
3. Sporting Equipment
If you are looking for efforts to improve your tennis game, then there is nothing much better than holding graphene-enforced racquets
4. Fast Charge Batteries
On the next, we have the application of fast charge batteries in the Graphene category.
Did you ever listen about the batteries that are nontoxic, cheap in prices and can charge your phone in just 5 seconds?
If not, then here we will make you learn about the Graphene batteries. Catch them now!
5. Bye-bye Radioactive Waste
Last on the list, we have the interesting application of Graphene that can remove radioactive waste.
Hence the graphene oxide has the ability to more quickly and efficiently remove radioactive material straight away from the contaminated water.
A New Step towards Releasing the full Potential of Graphene
Mentioning out, ultrapure water is taken into preparation all through the use of a PURELAB water purification system.
It is mentioned to be the key reagent that is the simple new latest method for the production of the graphene as paving away the path for the scientists as to unlock more of the tantalizing opportunities promised by one of the world’s most exciting materials.
In the year 2004, a team of scientists came up with the discovery and isolation of the graphene.
It is the single atomic layer of carbon that is all arranged in a distinctive honeycomb lattice as through a breakthrough that subsequently led them to a Nobel Prize.
As because of the versatile properties being part of it, graphene has also the potential to create upon the huge-scale impact across a vast number of products, all along with the processes, and industries.
It is many times mentioned to be stronger than steel yet incredibly lightweight and so as flexible, plus electrically and also thermally conductive while also transparent.
Additionally, it is also one million times smaller than the diameter of a single human hair.
Producing high-quality Graphene at scale with the Help of ELGA:
One of the best standings in the line of unleashing the graphene full possibilities has been in offering a reliable and scalable production method.
Monolayer graphene can also be used away as it produced by epitaxial growth in which the thin layer is grown on top of the surface of the crystal or often by using the chemical vapor deposition.
Nevertheless, both types of methods produce away only the tiny amounts so far as limiting the usage to specific high-performance applications such as in the electronics or optoelectronics fields.
But there are so many of the potential applications of the Graphene that are in need of so many of larger quantities mentioning with the development of new nanocomposites, or in nanomedicine.
Such as in drug delivery, biosensors or tissue engineering
Some of the scientists have also experienced over the success in the timeline of generating few-layer graphene of reasonable quality by mean of using methods involving the mechanical exfoliation of graphite.
But there are some of the shortcomings coming in the way such as intricacy as in removing any dispersants used during exfoliation.
Another major obstacle is that the Graphene is also extremely hydrophobic as with almost all dispersions that are to be prepared in the poisonous organic solvents.
This will create issues related to storage, transportation, and toxicity in biological applications.