Our products, GRAPHÈNE BOOSTER® and PARAFOULING® both contain graphene, a nanomaterial discovered fifteen years ago, with exceptional physical properties, which has opened up a whole new field of research in physics and chemistry.
Graphene is a material composed of a layer of simple carbon atoms arranged in a hexagonal pattern that visually resembles a honeycomb. It is the world's first two-dimensional material and is considered a "miracle material” because of its remarkable properties, including high strength, electrical conductivity, and flexibility.
Graphene was discovered in 2004 by Andre Gem and Konstantin Novoselov, who won the Nobel Prize in Physics in 2010 for their ground-breaking work. Since then, researchers have been exploring the potential applications of graphene in various fields, from electronics to biomedicine.
Graphene in the field of electronics
In electronics, graphene is expected to revolutionise the industry due to its excellent electrical conductivity and transparency. It is expected to replace silicon in many applications, such as touch screens, solar cells, and computer chips. Graphene-based transistors have the potential to be faster and more energy efficient than current silicon-based transistors, leading to smaller and more powerful devices.
Graphene in the field of energy
In the field of energy, graphene is studied as a potential energy storage material, such as batteries and supercapacitors. Graphene-based batteries may have a higher energy density and faster charging time than current lithium-ion batteries. Graphene-based supercapacitors could also store more energy than current capacitors, which could lead to more efficient and faster charging of electric vehicles.
Graphene in the service of biomedicine
In the medical field, graphene is being explored as a material for biosensors and drug delivery. Graphene’s high surface area and biocompatibility make it an ideal material for detecting biomolecules and delivering drugs to specific targets in the body. Graphene-based biosensors could revolutionise medical diagnostics by detecting diseases at an early stage, leading to more effective treatment and prevention.
In addition to these applications, graphene has potential uses in water filtration, building materials and even space exploration. Its lightness and strength could make it an ideal material for spacecraft and space suits.
In conclusion:
Graphene is a remarkable material that has the potential to change the future in many ways. Its unique properties make it a promising candidate for various applications in electronics, energy, medicine, and other fields. As research in graphene continues, we may see even more applications emerge, leading to new and innovative technologies that we can only imagine today.
