May I have executive summary please? And why should I read this?
Who demanded that you read it? Just click on by if you can’t spare the five minutes that it takes to read it.
Who demanded that you read it? Just click on by if you can’t spare the five minutes that it takes to read it.
It IS an executive summary.
Even the Wikipedia page for “adatom” shows that Graphene acts as a “counterexample” — it is a thermodynamically stable state. Also, since hydrogen is adsorbed into graphene it could provide a lattice structure suitable for controlling the Coulomb Barrier and the resultant heat generation from fusion events.
Adatom
From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Adatom
Adatom according to the TLK model.
An adatom is an atom that lies on a crystal surface, and can be thought of as the opposite of a surface vacancy. This term is used in surface chemistry and epitaxy, when describing single atoms lying on surfaces and surface roughness. The word is a portmanteau of “adsorbed atom”. A single atom, a cluster of atoms, or a molecule or cluster of molecules may all be referred to by the general term “adparticle”. This is often a thermodynamically unfavorable state. However, cases such as graphene may provide counter-examples.[1]
Much of the theoretical work that's been done to explain why low-temperature nuclear fusion between hydrogen atoms and between deuterium atoms involves looking at ways hydrogen atoms behave when they're held in close proximity. These experimental results appear to show some attractive behavior between hydrogen atoms when they are adsorbed into a two-dimensional crystal of carbon atoms, a material known as "graphene."
Thus, this could be experimental confirmation of some of the theory that has been developed to explain cold fusion (also sometimes called "LENR").