Science has definitely achieved quite a lot of milestones for centuries and lately the growth that it has achieved has been tremendous. One of the most notable milestones in the field of science and technology is of course. The use of two dimensional materials.
Due to the extraordinary features that the 2D materials possess, most of them have gotten a great amount of attention. Scientists and researchers claim that 2D materials have the capability of advancing the technologies that we use today. Even though the 2D materials for research are relatively in their early phase, it is no denying that the 2D materials possess a great number of unique qualities which make them so utilitarian.
Researchers are making great use of the 2D materials such as Graphene, Borophene, Graphyne, Silicene, Germanene, Phosphorene, and Stanene along with Bismuthene. Out of all the two dimensional materials that are out there, graphene is the most prominent out of them all. One of the main reasons for this is the fact that because of its innumerable capabilities graphene is used in the field of industrial and chemical processes. It also helps in enhancing the capabilities of certain materials.
Why Graphene Is The Most Popular 2D Material For Research?
As it has been established that graphene is probably the most popular 2D material for research. There are quite a few reasons why scientists and researchers are still continuing to study this particular 2D material. The capabilities and the potential graphene holds has been the sole reason. It is widely used in the fields of electronics, medical science, technology, etc.
In the field of medical science, graphene has the extra-ordinary capability of accelerating. The shape of the human bone without taking the help of biomedical inducers. The properties of graphene also allows it to be used as a reinforcement agent in order to make bone tissue applications.
Graphene when used as micro and nano particles can be used in photoacoustic and thermoacoustic tomography. This 2D material has a high amount of carrier mobility making it perfect to be used in the field of electronics. It is used as a channel in the field effect transistor due to it’s low amount of noise. It has a high quantity of electrical conductivity making it right candidate to be used in conducting electrodes. This means that graphene can be easily used in inorganic and organic photovoltaic cells. Touch-screens, organic light-emitting diodes and crystal displays with liquid.
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