Lunar Graphene Chinese scientists have made an unusual discovery while analyzing the sample Chang'e-5 collected from the Moon's surface in December 2020. They found naturally occurring "few-layer graphene" for the first time, as state-run news agency Global Times reports, which could have major implications for our plans to make use of local resources once on […]
Nanotubes are immensely valuable to many industrial processes though? They’re just in their infancy and limited by the “rudimentary” and relatively slow methods we have available to producing large amounts of them. They’re barely been on the larger market for a little over a decade.
Semiconductor devices were invented in 1947, but it took them nearly 25 years to replace vacuum tubes as the primary transistor in the majority of electronics.
I meant how nanotubes were presented like they were going to change the world. There was even talk of being able to build a space elevator with them. Maybe once there’s a permanent Moon base they will be able to take advantage of the graphene, but as you point out it could be decades into the future.
Those things are still all possible, and carbon nanotubes have already changed the world with their applications on a macro scale.
The point I was making is more that they are still in their infancy as a technological innovation and product, and it might need years if not decades more to be widely adopted into widespread use and be world changing for individual people.
Their conductive properties and light weight makes them perfect for use in large scale battery components.
They have revolutionized polymer composites, as nanotubes bond very well to epoxy and create a material significantly stronger other current composite materials. The listed current applications for this are wind turbines, marine paints on ships, professional sports equipment such as skis, hockey skates, arrows, etc.
Vantablack is made from nanotubes.
I had to look this up, but apparently they are used in atomic force microscopes and have allowed us to discover tens of thousands of microbiological species that were undetected before along with revolutionized microbiological studies.
It’s a significantly lighter lightweight adhesive compared to glue and other tapes. Since the tape also uses Van der Waals forces, there are no chemical adhesives needed.
This is a limited list of course, but there are many further niches uses in various fields of research.
Wind turbines are bad: they kill birds, the sounds mess with marine animals, and there’s no way to recycle the blades so they have to be buried underground.
marine paints on ships, professional sports equipment such as skis, hockey skates, arrows, etc.
These things existed before nanotubes, marginal improvement isn’t world-changing.
Vantablack
Rich people stuff.
there are many further niches uses
But that’s it: niche uses that don’t really affect people’s lives, so carbon nanotubes haven’t changed the world on a macro scale. We’re just not there yet as a society/species and we won’t be as long as there are hungry and homeless people on this planet.
Ooh this could be huge.
Don’t hold your breath. Remember carbon nanotubes?
Nanotubes are immensely valuable to many industrial processes though? They’re just in their infancy and limited by the “rudimentary” and relatively slow methods we have available to producing large amounts of them. They’re barely been on the larger market for a little over a decade.
Semiconductor devices were invented in 1947, but it took them nearly 25 years to replace vacuum tubes as the primary transistor in the majority of electronics.
I meant how nanotubes were presented like they were going to change the world. There was even talk of being able to build a space elevator with them. Maybe once there’s a permanent Moon base they will be able to take advantage of the graphene, but as you point out it could be decades into the future.
Those things are still all possible, and carbon nanotubes have already changed the world with their applications on a macro scale.
The point I was making is more that they are still in their infancy as a technological innovation and product, and it might need years if not decades more to be widely adopted into widespread use and be world changing for individual people.
I’m not disagreeing or disparaging what you say, but I’d love to hear some examples.
Their conductive properties and light weight makes them perfect for use in large scale battery components.
They have revolutionized polymer composites, as nanotubes bond very well to epoxy and create a material significantly stronger other current composite materials. The listed current applications for this are wind turbines, marine paints on ships, professional sports equipment such as skis, hockey skates, arrows, etc.
Vantablack is made from nanotubes.
I had to look this up, but apparently they are used in atomic force microscopes and have allowed us to discover tens of thousands of microbiological species that were undetected before along with revolutionized microbiological studies.
It’s a significantly lighter lightweight adhesive compared to glue and other tapes. Since the tape also uses Van der Waals forces, there are no chemical adhesives needed.
This is a limited list of course, but there are many further niches uses in various fields of research.
Wind turbines are bad: they kill birds, the sounds mess with marine animals, and there’s no way to recycle the blades so they have to be buried underground.
These things existed before nanotubes, marginal improvement isn’t world-changing.
Rich people stuff.
But that’s it: niche uses that don’t really affect people’s lives, so carbon nanotubes haven’t changed the world on a macro scale. We’re just not there yet as a society/species and we won’t be as long as there are hungry and homeless people on this planet.
Wind turbines are remarkable as wind power though, and the fossil fuel industry exaggerates the still unfortunate number of birds killed by them.