Graphene Applications – Classifications and Properties
Have you ever heard of the word ‘graphene’? Perhaps not. This almost mysterious material is in fact a very useful material that we can use to improve our way of life.
Graphene is a form of carbon atom in a plane atom thick. It is said to be the sturdiest material in the whole world. Graphene is arranged in a honeycomb pattern and is known as the world’s slimmest and most conductive material for both heat and electricity. These properties and characteristics are appealing to researchers and businesses all around the globe. It undeniably has the potential to change corporations in the fields of power, conductivity, the generating of electricity, batteries, sensors, medicine technology and many more.
Graphene Applications for Coatings, Sensors, Electronics and many more fields.
Graphene has a lot more potentials, this is why researchers and businesses are excited to explore more about the material. A few of the many promising characteristics are: anti-corrosion coatings and paints, able and accurate sensors, quicker and efficient electronics, versatile displays, durable and able solar panels, faster sequencing for DNA, drug delivery, and many more.
Graphene is such a flexible, durable, and easy to use stepping stone, which is why it greatly appeals to different industries and fields all over the world. These industries know how much they can benefit from this material alone. They understand how graphene can be a great investment for their business’ future.
With all these characteristics, it seems as if one can never go wrong in banking on this special material. However, only time will tell how much of an influence this new and budding material will really make. Will there be better materials? Or will graphene continue to dominate the industry? That’s a question we’ll all soon know the answer to.
How strong is graphene mechanically?
Since graphene is considered to be the world’s strongest material 200x stronger than steel and harder than diamond, it can be used to bolster other materials. Researchers around the globe have proven that combining an even trade amount of graphene to plastic, steel, or other materials can make them sturdier or lighter. It becomes lighter because you can use lesser materials to get the same strength with graphene combined. Most of these items can be found in aeronautics, building materials, mobile cell phones, and many more.
How is it used in thermodynamics?
Graphene is famous for being the world’s most conductive material to heat. Since it’s also agile and durable, it can also be a great material to use for heat spreading solutions. Examples for heat spreading solutions would either be heat sinks or graphene based electrically conductive adhesive.
How is it used to store power?
Since graphene is known to be the world’s slimmest material, it also has the highest surface area to volume scale. This fact makes graphene a high potential material for batteries and supercapacitors. Graphene can empower batteries, supercapacitors, and even fuel cells. These graphene enhanced batteries and supercapacitors can store more power and even charge faster.
Here is a list of pros for graphene enhanced batteries:
- Better capacity
- Charges faster
- Very lightweight
- Super flexible
- High temperature tolerance