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What is fullerene?

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A unique structure resembling a hollow cage or sphere is what constitutes a fullerene, a molecule composed entirely of carbon atoms. Alongside graphite and diamond, it is considered a form of carbon allotrope. The renowned and most commonly known fullerene is referred to as buckminsterfullerene or simply C60, which takes the shape of a soccer ball with 60 carbon atoms. Fullerenes come in a range of sizes, from as little as 20 carbon atoms to several hundred. They can be found naturally in soot or formed through different methods like laser ablation or chemical vapor deposition. With their distinct structure, fullerenes possess exceptional properties, such as high strength, low density, and excellent electrical and thermal conductivity. Therefore, they have found applications in various fields, including nanotechnology, electronics, medicine, and materials science.
Fullerene refers to a molecule made entirely of carbon atoms, arranged in a unique structure resembling a hollow cage or sphere. It is a form of allotrope of carbon, alongside graphite and diamond. The most common and well-known fullerene is called buckminsterfullerene, or simply C60, which consists of 60 carbon atoms arranged in a soccer ball-like shape. Fullerenes can also vary in size, ranging from as few as 20 carbon atoms to several hundred. They can be found naturally in soot and formed through various methods, such as laser ablation or chemical vapor deposition. Due to their distinctive structure, fullerenes possess remarkable properties, including high strength, low density, and excellent electrical and thermal conductivity. They have found applications in various fields, including nanotechnology, electronics, medicine, and materials science.
Fullerene refers to a unique form of carbon molecule that is composed of interconnected carbon atoms forming a cage-like structure. It was first discovered in the 1980s and has since attracted significant scientific interest due to its distinct properties and potential applications in various fields such as electronics, medicine, and materials science.

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