My understanding is these nanostructures have a gap smaller than the air mean free path that induces strength anisotropy in X, Y, Z which generates a preferred direction from resulting force
It is correct idea from Cydonia.
My understanding is these nanostructures have a gap smaller than the air mean free path that induces strength anisotropy in X, Y, Z which generates a preferred direction from resulting force
It is correct idea from Cydonia.
Hello Alexander Frolov welcome to the forum.
An interesting paper, do you have any physical samples of this material?
I am interested to produce new samples (prototypes) with some interested laboratory. In 2011-2013 I made some samples and measured the effects with aerogel nanostructures and Ti2O3 nanotubes but the effects were very weak and unstable. I suppose in open air it is depend on the air humidity. Next stage of project require more funds to build the prototypes.
I see this topic of the forum is about electricity generation by means of graphene. Graphene and other nanostructures also can be used for advanced propulsion method. Some nanoreliefs can take off part of kinetic energy of air (gas) molecules to make cooling of environmental media. Our team offer new technology to use this principle for aerospace propulsion. Read more here http://www.faraday.ru/afm.html
Simple description of the technology is attached here.
We are interested to organize expeirmental work in some laboratory, no matter what is a country of location. Our lab was closed in Russia in 2016. I am interested to find new business partners for this project.