= Raman Spectroscopy of Carbon Nanotubes under Axial Strain - Rajay Kumar
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Carbon is the name of an element. It is important as an element and in chemical compounds. Pure comes in several forms, as soot, as graphite, as coal, as a diamond, as a bucky ball, or as a nanotube. Carbon comes as inorganic compounds such as Carbon dioxidegas. Most carbon comes in the form of organic compounds such as food or the clothes that you wear.
Yes carbon in few forms is bendable and shapeable. The best example of a shapeable carbon is spider silk / carbon nanotube (CNT-SS).
All organic compounds contain carbon. Carbon can make everything from carbon dioxide to chlorophyll.
Carbon and oxygen.
*monoxide Carbon and oxygen.
Carbon remain carbon.
Carbon nanotube emits light because it absorbs light across a wide range of wavelengths
No, diamond nanorids is
It is mostly likely a nanotube or something like that, but not a carbon.
Because nobody wants an unpure carbon nanotube
Carbon Nanotube. You might think something like titanium or something but so far discovered its Carbon Nanotube. There might be something much harder in the universe of something. Carbon Nanotube is man made and can only be created in a microscopic sizes. If you're looking for something to USE. Steel or titanium would be perfect. Carbon Nanotube is so strong it could hold a asteroid orbiting around the earth. Which brings up the space elevator. You should search up information about the space elevator and you might find some more information on carbon nanotube. hope this helped!
Barrel (is made of) Carbon Nanotube
It means Carbon Nanotube Technology.
A carbon nanotube is a particle, meaning it is a solid piece of matter. It is howerver, because it is so small, governed by quantum physics.
You've described a carbon nanotube.
I know it has something to do with it's structure, since its in a cylinder like shape, any pressure given to carbon nanotube spreads throughout the bonding so it can hold it better. I think there is more to it but thats all I know.
A carbon nanotube can be compared to the fullerenes, a group of spherical carbon allotropes (allotropes are different forms of a single element).The key difference is that the fullerenes are spherical in shape whereas carbon nanotubes resemble a fullerene network that has been stretched into a cylindrical shape. Furthermore, nanotubes contain more carbon atoms than most fullerenes do.