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According to a recent report by the American physicist organization network, a German research team used computer simulations to find that because of its special geometry, graphene may be more conductive and more versatile than graphene. Related research was published in the latest issue of Physical Review Letters. In the past few years, many scientists have devoted themselves to the study of graphene in the study of graphene, and the research reports related to the characteristics and uses of graphene have also come out. But now, as scientists continue to deepen their research on graphene, it has been found that graphene has a strong electrical conductivity and a variety of geometric forms, and its performance may make graphene dwarf. It is well known that graphene is a single layer of carbon atoms arranged in the shape of a hexagonal or fine wire mesh fence. Graphene alkyne is also a single layer of carbon atoms, but these carbon atoms can exist in many different forms, which makes them more versatile. Scientists have discovered that graphene has electrons that conduct electricity. The energy of electrons is proportional to its momentum. When the energy levels of electrons are designed in three dimensions, they will exhibit the shape of a Dirac. Because of this unique relationship, these conductive electrons behave as if they are of no mass, so that they can travel at a speed very close to the speed of light. This property is very useful for improving current transistor technology. Graphene has one or two bonds, while graphene has two or three bonds; moreover, graphene is not limited to hexagonal shapes, but can actually exist in countless forms. In the latest study, scientists used computer simulations to carefully study three different forms of graphene, and found that all three graphenes produced a Dirac vertebra, although the shape was slightly different, and most importantly, One of the materials, known as 6,6,12-graphene, can exist in the form of a quadrilateral. The structure of the graphene should allow electrons to flow in only one direction. Scientists say that it is not necessary to do this with other graphite materials to make them conductive, and graphene generally needs to add dopants to it. Although scientists can only produce graphenes with very small sizes, they are excited about the latest research and believe that the application prospects of graphene are very attractive. In addition, the study has shown that many different forms of graphene can produce Dirac vertebra, which means that there are many other materials that can do this well.