US developed an "upgraded version of diamonds": brighter and more shining
Abstract American researchers have developed a carbon allotrope that resembles a diamond but is better than a diamond. For couples, this new substance called “Q-carbon†is more shiny and harder than diamonds. Is it more representative of loyal love than diamonds? "Q-carbon" (scale 3 micro...
American researchers have developed a carbon allotrope that resembles a diamond but is better than a diamond. For couples, this new substance called “Q-carbon†is more shiny and harder than diamonds. Is it more representative of loyal love than diamonds? 
“Q-carbon†(scale 3 microns)
CNN reported on December 2 that the North Carolina State University research team adopted a special method to develop this "upgraded diamond" to bring a new member to the carbon allotrope family. .
The team's research report published in the American Journal of Applied Physics shows that they use a laser to illuminate carbon for 200 nanoseconds (1 nanosecond is equal to one billionth of a second), making it instantly reach 3,700 degrees Celsius, and then quickly let it Cooling to form a unique crystal structure.
It is worth noting that the temperature required to make "Q-carbon" is nearly twice the temperature at which natural diamonds are formed. Although this new substance is an allotrope of carbon and diamond, but its properties are very different, for example, it can be magnetized.
Diamonds have the highest hardness in natural minerals, but "Q-carbon" is harder than diamonds. In addition, "Q-carbon" is more dazzling than diamonds, even in the weakest light, it is difficult to cover up the brilliance.
ã€Wide range of uses】
North Carolina State University researcher Jay Narayan said that "Q-carbon" is probably never existed on Earth before. "If you want to say that nature can exist, then the only possibility is in some The inner core of the planet."
After the news of the “upgraded diamonds†came out, some people may begin to figure out how to design a wedding ring, but in the eyes of researchers, this material is still “more practical†for manufacturing medical devices such as nano-needle and super clear film.
For example, Drexel University is studying how to inject anticancer drugs into brain tumors. Nano-needles made of "Q-carbon" may come in handy. As a more dazzling crystal than diamond, "Q-carbon" film will also provide a clearer display.
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