@farmerman,
Quote: I was responding to them. Sorry if you failed to pick up on that
It's hard to tell with you, famerman, because you are being your usual slippery self. These top scientists [look the world 'scientist' up in a dictionary so you know what I meant] found and described nano scale thermite. It says so right in their Abstract but coward/liar that you are, you failed to mention that.
You also made the LUDICROUS suggestion that nanothermite is unstable and hard to work with. Are you outright lying or are you really this ignorant?
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Active Thermitic Material Discovered in Dust from the 9/11 World Trade
Center Catastrophe
https://benthamopen.com/contents/pdf/TOCPJ/TOCPJ-2-7.pdf
Abstract: We have discovered distinctive red/gray chips in all the samples we have studied of the dust produced by the
destruction of the World Trade Center. Examination of four of these samples, collected from separate sites, is reported in
this paper. These red/gray chips show marked similarities in all four samples. One sample was collected by a Manhattan
resident about ten minutes after the collapse of the second WTC Tower, two the next day, and a fourth about a week later.
The properties of these chips were analyzed using optical microscopy, scanning electron microscopy (SEM), X-ray energy
dispersive spectroscopy (XEDS), and differential scanning calorimetry (DSC). The red material contains grains approximately 100 nm across which are largely iron oxide, while aluminum is contained in tiny plate-like structures. Separation
of components using methyl ethyl ketone demonstrated that elemental aluminum is present. The iron oxide and aluminum
are intimately mixed in the red material. When ignited in a DSC device the chips exhibit large but narrow exotherms occurring at approximately 430 ˚C, far below the normal ignition temperature for conventional thermite. Numerous iron-rich
spheres are clearly observed in the residue following the ignition of these peculiar red/gray chips. The red portion of these
chips is found to be an unreacted thermitic material and highly energetic.