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What's Graphene And Why It'll Soon Take Over The World

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Why graphene hasn’t taken over the world...yet

Graphene is a form of carbon that could bring us bulletproof armor and space elevators, improve medicine, and make the internet run faster — some day. For the past 15 years, consumers have been hearing about this wonder material and all the ways it could change everything. Is it really almost here, or is it another promise that is perpetually just one more breakthrough away?

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Reporter: Angela Chen
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Additional Camera: Christian Mazza, Phil Esposito
Director of Audience Development: Ruben Salvadori
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What's Graphene And Why It'll Soon Take Over The World - nano technology.




The demonstration is how to produce Graphene HRCM by the method of cold destruction of carbon laminated compounds into carbon clusters, graphenes. GrapheneCl2O7 is produced by a special reaction on NaCl in platinum electrolyzers. A retardant is added to Cl2O7 to slow down the reaction by avoiding explosion. The reaction is autocatalytic chain reaction. It was claimed that this method of Graphene production is only known to Prof. Petrik. Carbon material produced by cold destruction of stratified carbon compounds, mostly consisting of graphenes and having high activity to pressing is named High Reactivity Carbon Mixture [HRCM]. It consists of graphenes, various web type carbon structures in rolls, nanotubes, branching nanotubes, nanofractals, etc, which form homogenous carbon mass as a result of chaotic concretion possessing tremendous specific surface and high chemical activity. Abnormal sorption properties of HRCM can be explained by the fact that carbon atoms at the graphene periphery are not saturated have increased chemical activity and can be bound to many compounds in order to compensate free valence. Graphene has unique properties -very high sorption ability, very light 2 kg/m3, high thermal conductivity, high electrical conductivity very strong- 200 times steel.
Prof.Petrik informed that industrial method for production of graphenes is patented in 56 countries, including the USA and countries of the European Union.The method enables to produce HRCM in industrial quantities under field conditions without necessity of special hardware.It was claimed that HRCM is a new substance of a certain class having no analogues in the world by physical, chemical, functional and economic characteristics as well as by ecological purity, versatility and variety of spheres of application.
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What's Graphene? And Why It'll Soon Take Over The World

What is graphene? What is it used for? The most amazing thing about this semi-metal of the future is the fact that you can produce it yourself in your living room!

What is graphene, and why is it so amazing? One of the things that makes graphene so cool is that it’s the thinnest material you can imagine. It's just one atom thick! This means this material is mathematically 2-dimensional. And you can still hold this single layer of atoms in your hands!
Surprisingly, graphene isn't a unique or rare substance. In fact, it has the same carbon structure as the graphite you use every day when you draw or write with your pencil! But at the same time, in 0.03” of graphite, there are about 3 million graphene layers!
SUMMARY:
- Graphene isn't a unique or rare substance. In fact, it has the same carbon structure as the graphite you use every day when you draw or write with your pencil! But at the same time, in 0.03” of graphite, there are about 3 million graphene layers!
- Dr. Konstantin Novoselov and Professor Andre Geim discovered the wonder-material in 2004 at the University of Manchester. They were examining how efficient graphite is as a transistor. The story goes that graphene appeared thanks to sticky tape!
- Graphene used to be incredibly expensive to manufacture. It cost a whopping $1,100 to produce enough graphene to cover the head of a pin. However, by the end of 2015, you could buy 0.35 oz of graphene for $1,000.
- Graphene is incredibly stretchy. It can stretch as much as 25% of its length! This material is also really stiff. Actually, it’s the hardest material people know about — even harder than diamonds, and that says a lot!
- One more great thing about graphene is its relationship with electricity. This material carries electricity more quickly, more precisely, and more efficiently than any other known material.
- Graphene may be the answer to the water crisis many countries are facing. If we make membranes from graphene, they would be able to let water through while filtering out salt at the same time.
- One layer of graphene is impressive enough. Can you imagine what you could achieve with 2 layers of this super material? Nothing short of incredibly strong body armor.
- If producers start to use graphene in gadget manufacturing, we might end up with smartphones that can be bent in any direction. One of graphene’s main properties is its flexibility.
- Graphene can be used in the beauty industry as well. It will be the perfect alternative to current hair dyes, most of which are still toxic and damaging to hair.
- Well, you can potentially make graphene at home, provided you have enough time and patience to do so.

What's Graphene And Why It'll Soon Take Over The World "2 Vieo's to watch"




What's Graphene And Why It'll Soon Take Over The World
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Graphene - the material of the future | Tomorrow Today

The EU has pledged a billion euros for research into graphene at a consortium of institutions across the continent. The amazing material is strong, flexible, an excellent conductor of electricity and heat. Some say graphene may well revolutionize computing, telecommunications, and engineering.
Read more:

Is This New Super Carbon Better Than Graphene?

Scientists have been searching for schwarzites for decades, here’s how their discovery could change our world.

How Supercapacitors Could Make Batteries a Thing of the Past -

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Generating carbon schwarzites via zeolite-templating

Nanocarbons can be characterized by their curvature—that is, positively curved fullerenes, zero-curved graphene, and negatively curved schwarzites. Schwartzites are fascinating materials but have not been synthesized yet, although disordered materials with local properties similar to schwarzites (“random schwarzites”) have been isolated.

Simulations suggest graphene’s elusive cousin may become a reality

“Now, Berend Smit’s laboratories at the Ecole Polytechnique Fédérale de Lausanne (EPFL) and the University of California, Berkeley, have developed a computational method which suggests that some kinds of zeolite-templated carbons (ZTCs), including some that have been attempted in labs, are in fact Schwarzites. Smit credits the project’s success to collaboration between chemists and mathematicians in his group.”

Long-sought carbon structure joins graphene, fullerene family

“UC Berkeley chemists have proved that three carbon structures recently created by scientists in South Korea and Japan are in fact the long-sought schwarzites, which researchers predict will have unique electrical and storage properties like those now being discovered in buckminsterfullerenes (buckyballs or fullerenes for short), nanotubes and graphene.”

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Graphene explained

Graphene explained

This video was produced by simpleshow.com

New Discovery Could Unlock Graphene's Full Potential

It's time for an update on graphene, that super material of the future! Scientists have come up with some new ways of making it that are easier and cheaper than ever before.

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The Story of Graphene

Fascination with this material stems from its remarkable physical properties and the potential applications these properties offer for the future. Although scientists knew one atom thick, two-dimensional crystal graphene existed, no-one had worked out how to extract it from graphite.

Scientists cook up material 200 times stronger than steel out of soybean oil

Many production techniques involve the use of intense heat in a vacuum, and expensive ingredients like high-purity metals and explosive compressed gases. Now a team of Australian scientists has detailed how they turned cheap everyday ingredients into graphene under normal air conditions. They said the research, published today in the journal Nature Communications, may open up a new avenue for the low-cost synthesis of the highly sought-after material.

Physicists patent detonation technique to mass-produce graphene

Forget chemicals, catalysts and expensive machinery-a Kansas State University team of physicists has discovered a way to mass-produce graphene with three ingredients: hydrocarbon gas, oxygen and a spark plug. Their method is simple: Fill a chamber with acetylene or ethylene gas and oxygen. Use a vehicle spark plug to create a contained detonation. Collect the graphene that forms afterward.

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Graphene Stocks : Top 3 Graphene Stocks to Invest in (2019)

Graphene Stocks : Top 3 Graphene Stocks to Invest in (2019)

What’s up fam, on this channel we bring you the newest, hottest and most interesting investment opportunities of the current moment, and today we’ve got something pretty interesting to share with you, something many of you may think is too early to invest in and something some of you maybe even didn’t know existed.

We are talking about investing in graphene (2019).

But hold on …

What is graphene?

According to graphene is the thinnest material known to mankind at one atom thick, and also incredibly strong - about 200 times stronger than steel. On top of that, graphene is an excellent conductor of heat and electricity and has interesting light absorption abilities. It is truly a material that could change the world, with unlimited potential for integration in almost any industry.

It’s potential applications were really hyped up in the past and the media was going on and on about how graphene is the new wonder material that will make space elevators that get us to the moon and how space travel will become mainstream, and how the sweater your aunt gives you for Christmas is going to be bullet and stab proof, but it never really got there.

Off course this is not a science channel, but what makes this reaction possible is the fact that graphene is an extremely diverse material and can be combined with other elements (including gases and metals) to produce different materials with various superior properties. Researchers all over the world continue to constantly investigate and patent graphene to learn its various properties and possible applications, which include:

Touchscreens, transistors, computer chips, batteries, energy generation, supercapacitors, DNA sequencing, water filters, antennas, solar cells and spintronics-related products.

But to go back to the core of this video, investing in graphene, we’ve chosen 3 stocks to share with you that believe were a lot harder to find and analyze, simply because some of the best graphene companies are not yet publicly traded companies, and the market is currently full of companies that WANT to be associated with graphene because that brings them exposure because of the upcoming hype around graphene, but the fact that companies are trying to make a connection between themselves and graphene also is a strong indicator of something big in the making.

The 3 graphene stocks (2019) that we will be talking about are:

#1 Graphene stock: First Graphene Limited that is listed on the Australian Stock exchange, under the ticker symbol (FGR).


#2 Graphene stock: Applied Graphene Materials plc that is listed on the London stock exchange under the ticker symbol (AGM.L)


#3 Graphene stock: AIXTRON SE that is listed on the OTC market under the ticker symbol, (AIXXF) and on the German XETRA under the ticker symbol (AIXA.DE).



Graphene Stocks : Top 3 Graphene Stocks to Invest in (2019)

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P.S: If you buy anything using any of the links above, we get a small commission from Amazon.

Disclaimer 1: This is not official legal advice, results are not promised, and every individual should take their own decision based on their own experience and knowledge as results may differ between individuals.

Disclaimer 2: By the time you're watching this video we may own shares of companies mentioned in this video, and do proclaim that this is NOT a speculative video. #GrapheneStocks #GrapheneInvesting #Graphene

WHATEVER HAPPENED TO GRAPHENE? (UPDATE)

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Graphene: The Next Big (But Thin) Thing

If you haven't heard of it before, you have now. And it may prove to be the next big thing in materials science. SciShow explains what it is, why it's so awesome, and what challenges we face in harnessing its amazing properties.

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Graphene | How It's Made

In 2004, scientists extracted a substance called graphene from graphite - the material used to make pencils. Graphene can reveal chemical in the air, as well as disease enzymes in blood.

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GRAPHENE: What is it? (2019)

Remember to turn on captions!

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1. INTRODUCTION: Honeycomb carbon

Graphene is a two-dimensional material that is ultra light, super strong, and very conductive. It’s a one atom thick layer of carbon atoms arranged hexagonally like a honeycomb structure....
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2. TYPES OF GRAPHENE

The properties of graphene can vary significantly depending on the type of graphene being used. Although the basic definition of graphene is a 1 layer thick of hexagonally arranged carbon atoms, there are graphene variations with multiple layers of stacked sheets and other chemically modifications that are also labelled as graphene for convenience...
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3. THE PROPERTIES OF GRAPHENE

‘Why does graphene not have the same properties of graphite if graphite is just many layers of graphene stacked together?’ one may ask. When you have so many layers of graphene stacked together, the strength of the overall bulk material is as strong as the the weak van der waals forces between the...
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4. GRAPHENE PRODUCTION METHODS

Top down approaches of graphene production involve isolating graphene layers from graphite. Details of different types of methods will be described here...
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5. GRAPHENE APPLICATIONS

- Energy storage
- Batteries
- Supercapacitors
- Corrosion-resistance coating
- Medical applications
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6. THE LATEST GRAPHENE RESEARCH

Research has never been more active in the field of graphene and graphene-based materials. New discoveries about graphene properties especially when interacting with other materials are still being made. Many new applications are getting discovered as well as improvements on current graphene applications all around the world...
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7. THE MARKET

Largely the graphene industry is still considered an emerging industry undergoing R&D efforts to improve the commercial scalability and application of graphene. However, there are a few companies that are already producing graphene and taking advantage of the growing market for graphene....
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8. PRODUCTION CHALLENGES

The first main challenge with graphene is with commercial scalability. There are also concerns with toxicity. Also described here are some application-specific challenges, such as first cycle irreversible capacity loss in lithium ion batteries....
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The Strength of GRAPHENE Explained

The Strength of GRAPHENE Explained - In this video I discuss about Graphene and where does the 10x stronger or 200x stronger than steel comes from.

Enjoy!

Science Documentary: Graphene, Nanomaterials, a Documentary on Nanotechnology

Science Documentary: Graphene, Nanomaterials, a Documentary on Nanotechnology

We use nanotechnology and nanomaterials every day or our lives. They are in sporting goods, microelectronics, automotive goods, biomedical devices, etc.

Graphene is a nanomaterial that comes from the oldest and cheapest material, called graphite. Graphene is a none atom thick layer of carbon. To put it in perspective, graphite is made of billions of layers of carbon, if you take one layer of that graphite, you have graphene. Graphene is very flexible, light and transparent; and it is 300 times stronger than steel, which makes graphene the strongest material known to man. The biggest problem with graphene, is that it is difficult to make.

Graphene was first discovered by taking scotch tape and a pencil with graphite, then scribbling on the piece of scotch tape, then by continuously separating the scotch tape over and over, you get a thinner piece of graphite. until eventually you reach about an atom thickness and you then have graphene. But this process, would be very difficult to produce graphene commercially. By using magic solvents, we can produce billions of graphene sheets in a half hour. Now scientists have improved that figure to one kilogram of graphene an hour. Graphene is not the only layered material in nature, so by exploring these different materials, we can produce totally different nanomaterials with completely different properties, because they would be made by different atoms.

There are several useful products that can be produced from nanomaterials, including printable and flexible electronics. Nanotechnology can also be used to make solar panels more affordable. Although, at the present time, solar panels are being produced, at a price that many people are happy to pay , for the output they produce. The problem is that when they are placed outside they become damaged from the sunlight. What happens is that the solar panels power output begins to slowly degrade up to 30% from its initial value, which is a very significant loss, and greatly affects the cost of the solar panel.

In microelectronics, a problem was discovered that was traced to ionized copper being affected by a light source. Since copper is positively charged, and positive and negative charges attract each other, if we put a material with a negative charge on the surface of the solar cell we can remove the effects caused by the harmful copper.

In the study of advanced nanotechnology, there are two engineering methods. The standard method and the exploratory method. Products engineered using the standard methodology must be able to be described and modeled, and must be able to be manufactured. In the standard model, ideas must be concrete, whereas in the exploratory method, parametric designs are more acceptable and are open to designs that are not yet understood.

We have seen winged flight and optical imaging, for example, and we have artificial systems that mimic them. The materials may be different but the systems are the same. In the molecular world, there are also several biological systems with there artificial counterpart. The biological systems use enzymes, whereas the artificial system uses digital information to create several new materials which can be used for making bulletproof vests with silk fiber.

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Graphene And Graphite Mining

i am presenting a project i would like to work on specifically with a graphite mining company, if you have a graphite mining company and are interested please feel free to contact me at robertmurraysmith64@gmail.com

The Age of Graphene: Samsung's Revolutionary Battery Technology

Pre-historic times and ancient history are defined by the materials that were harnessed during that period.
We have the stone age, the bronze age, and the iron age.
Today is a little more complex, we live in the Space Age, the Nuclear Age, and the Information Age.
And now we are entering the Graphene Age, a material that will be so influential to our future, it should help define the period we live in.
Potential applications for Graphene include uses in medicine, electronics, light processing, sensor technology, environmental technology, and energy, which brings us to Samsung’s incredible battery technology!
Imagine a world where mobile devices and electric vehicles charge 5 times faster than they do today.
Cell phones, laptops, and tablets that fully charge in 12 minutes or electric cars that fully charge at home in only an hour.
Samsung will make this possible because, on November 28th, they announced the development of a battery made of graphene with charging speeds 5 times faster than standard lithium-ion batteries.
Before I talk about that, let’s quickly go over what Graphene is.
When you first hear about Graphene’s incredible properties, it sounds like a supernatural material out of a comic book.
But Graphene is real! And it is made out of Graphite, which is the crystallized form of carbon and is commonly found in pencils.
Graphene is a single atom thick structure of carbon atoms arranged in a hexagonal lattice and is a million time thinner than a human hair.
Graphene is the strongest lightest material on Earth.
It is 200 times stronger than steel and as much as 6 times lighter.
It can stretch up to a quarter of its length but at the same time, it is the hardest material known, harder than a diamond.
Graphene can also conduct electricity faster than any known substance, 140 times faster than silicone.
And it conducts heat 10 times better than copper.
It was first theorized by Phillip Wallace in 1947 and attempts to grow graphene started in the 1970s but never produced results that could measure graphene experimentally.
Graphene is also the most impermeable material known, even Helium atoms can’t pass through graphene.
In 2004, University of Manchester scientists Andre Geim and Konstantin Novoselov successfully isolated one atom thick flakes of graphene for the first time by repeatedly separating fragments from chunks of graphite using tape, and they were awarded the Nobel Prize in Physics in 2010 for this discovery.
Over the past 10 years, the price of Graphene has dropped at a tremendous rate.
In 2008, Graphene was one of the most expensive materials on Earth, but production methods have been scaled up since then and companies are selling Graphene in large quantities.

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Graphene Future Applications

Video explaining about different types of carbon, making graphite, the properties of graphite, the uses of graphite and making a solar cell.

Made in conjunction with The Banks Group at Manchester Metropolitan University.

What is Graphene?

Graphene is the strongest, thinnest and lightest material in the world. It is 200 times stronger than steel. Graphene is also the world's best conductor of heat and electricity.

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Graphene _ The Future ("STRONGEST MATERIAL IN THE WORLD")

Graphene is a semi-metal with a small overlap between the valence and the conduction bands. It is an allotrope of carbon consisting of a single layer of carbon atoms arranged in a hexagonal lattice. It is the basic structural element of many other allotropes of carbon, such as graphite, diamond, charcoal, carbon nanotubes and fullerenes.

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