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Carbon can be described as nature’s “girl with a thousand faces”: precious diamonds, ordinary pencils, and graphite, which is the strongest material on earth, graphene
.
According to reports, after decades of efforts by scientists, carbon now has a new face-the Schwarzite structure
.
Scientists speculate that their electrical, magnetic, and optical properties enable them to flex their muscles in industries such as electronics and fossil fuels
.
? Decades ago, chemists predicted that there would be a new form of carbon-mercury tetrahedron structure (an imaginary structure in which the hexagonal layer is distorted to a saddle shape of "negative curvature" due to the appearance of heptagons) Because of its unique properties, it can be used in batteries and as a catalyst
.
Recently, scientists have created this kind of carbon
.
Researchers from South Korea and Japan made it by accident when they were studying zeolite template carbons (ZTCs), but they did not attract attention at the time until chemists at the University of California, Berkeley noticed their unusual structure
.
? Carbon can be arranged into two-dimensional "crystals", including graphene sheets and football-shaped fullerene sheets.
The specific shape depends on the degree of curvature of the structure when the carbon atoms are locked together
.
Unlike fullerene's positive bending and graphene's no bending at all, the amalgam structure is negatively bending
.
? The latest research leader, molecular engineer Berend
.
Professor Schmidt explained that zeolite is a mineral commonly used in laundry detergents to soften water.
It is a key element to bring the structure of amalgam from theory to reality.
By injecting carbon-containing steam into zeolite, this can be created.
One structure
.
Once inside the zeolite, carbon will assemble into graphene-like flakes, linearly arranged on the walls of the zeolite pores, so that the surface of the zeolite stretches and bends negatively, and then the zeolite can be dissolved to create a pure mercury tetrahedrite structure
.
Moreover, by choosing the correct zeolite, the structure of the amalgam can be adjusted to obtain the desired properties
.
.
According to reports, after decades of efforts by scientists, carbon now has a new face-the Schwarzite structure
.
Scientists speculate that their electrical, magnetic, and optical properties enable them to flex their muscles in industries such as electronics and fossil fuels
.
? Decades ago, chemists predicted that there would be a new form of carbon-mercury tetrahedron structure (an imaginary structure in which the hexagonal layer is distorted to a saddle shape of "negative curvature" due to the appearance of heptagons) Because of its unique properties, it can be used in batteries and as a catalyst
.
Recently, scientists have created this kind of carbon
.
Researchers from South Korea and Japan made it by accident when they were studying zeolite template carbons (ZTCs), but they did not attract attention at the time until chemists at the University of California, Berkeley noticed their unusual structure
.
? Carbon can be arranged into two-dimensional "crystals", including graphene sheets and football-shaped fullerene sheets.
The specific shape depends on the degree of curvature of the structure when the carbon atoms are locked together
.
Unlike fullerene's positive bending and graphene's no bending at all, the amalgam structure is negatively bending
.
? The latest research leader, molecular engineer Berend
.
Professor Schmidt explained that zeolite is a mineral commonly used in laundry detergents to soften water.
It is a key element to bring the structure of amalgam from theory to reality.
By injecting carbon-containing steam into zeolite, this can be created.
One structure
.
Once inside the zeolite, carbon will assemble into graphene-like flakes, linearly arranged on the walls of the zeolite pores, so that the surface of the zeolite stretches and bends negatively, and then the zeolite can be dissolved to create a pure mercury tetrahedrite structure
.
Moreover, by choosing the correct zeolite, the structure of the amalgam can be adjusted to obtain the desired properties
.