Graphene is one of the lightest and strongest materials available, and it’s one of the most efficient energy conductors. These properties mean it’s quickly becoming one of the most popular materials for researchers to incorporate into their fields. When combined with other materials, it has even more potential applications. Here are some of the fields where graphene is already starting to show promising signs for future innovations.
Graphene has many potential uses for electronic engineers. It’s efficient at storing energy, conducts energy better than most other materials, and ultimately may result in high-performance products that are more affordable than ever. Not only that, it’s safer and more durable than materials that are currently being used, so it presents researchers with exciting possibilities as they develop new technology.
Optical electronics are one specific area where graphene shows many promising benefits. It’s very likely that it will soon be used in products like touchscreens and liquid crystal displays (LCDs). Because of its physical flexibility, it may also be used to create more flexible electronics such as computers and televisions in the future.
There’s still a lot of testing to be done before graphene can be widely incorporated into bioengineering, but all signs indicate that it will be an important material in this field in the future. Potential applications involve tissue regeneration, cancer treatments, birth control, and more. Once it undergoes more intensive safety trials, graphene suppliers are likely to be sought after by many researchers in this field.
Along with bioengineering, graphene shows a lot of promise when it comes to making medical sensors. Scientists have proposed a wide range of applications for graphene-based sensors. These sensors may be able to detect glucose, cholesterol, and even diseases such as Parkinson’s. It’s also been suggested that tiny graphene sensors on your teeth could help monitor levels of bacteria in your mouth.
In addition to biological sensors, graphene-based chemical sensors are also being researched. These sensors could help to detect various gasses quickly and efficiently.
Finally, graphene is already being touted as one of the best new materials to use in high-performance fields like aerospace engineering. Most researchers in these fields have already partnered with a graphene supplier to begin developing building materials that are lighter and more durable. This will ultimately help improve fuel efficiency and reduce strain on the vehicle. Graphene is already being used in a wide variety of composite materials to make stronger, safer aircraft.