I have not seen reference to such a computer model, but It would be even more interesting if the electron spacing was deeply compressed – IOW the molecule is indeed a densified superhydride. This paper indicates that there is an atomic sublattice which should be highly densified,
https://ui.adsabs.harvard.edu/abs/2019APS..MARB17003S/abstract Apparently from the first paper, the bond energy is strongest for CeH4 which is not a superhydride, just a hydride. If one believes in an expansive version of Holmlid’s work, then the atomic sublattice of Cerium superhydride could be a substitute target for proton disintegration by laser pulse. This would be of interest commercial interest to Norront. From: [email protected] The computer model for Ce-hydride would be interesting. Do the H’s pair up like electrons do? What is their separation? HOW DO TTHEIR MAGNETIC MOMENRS OVERLAP/ATTRACT? Bob Ciik From: Jones Beene Bob Cerium is the most common lanthanide and is actually inexpensive in quantity. The prime application for the so-called "superhydrides" like CeH9+ seems to be superconductivity. However the extremely high "loading" could indicate LENR is facilitated.Pd only goes to 1:1 Here is an article of interest that uses Ce at "only" 9:1 loading. Scientists create 'impossible' superconductor CeH9 after bending the rules of chemistry Scientists create 'impossible' superconductor CeH9 after bending the rul... By managing to capture a cerium atom in a lattice of 29 hydrogen atoms, the researchers say they have bent the r... bobcook wrote: Ce is more valuable than most metals IMHO. Nano particles of Ce and H or D may allow fusion to occur or otter t transmutations. The NASNO particle may be an entangled system can under go a phase change with a swap of potential for kenotic energy and conservation of spin and angular momentum. From: Jones Beene This seems quite remarkable if true - hydrogen loading ratio 16:1 with cerium "Insight into anomalous hydrogen adsorption" ....Shreeja Das, et al Hydrogen interaction with metal atoms is of prime focus for many energy related applications... but its binding properties with lanthanides are not well reported. In this article, by density functional theory studies, we show how a rare earth metal, cerium, binds with hydrogen... Each cerium atom is found to bind eight hydrogen molecules which is a much higher number than has been reported for transition metal atoms. DOI: 10.1039/D0RA01835J (Paper) RSC Adv., 2020, 10, 12929-12940
