Phase transition of DNA-linked gold nanoparticles: Creation of a high concentration of atomic hydrogen in impurity-helium solids
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abstract
The phase transition of DNA linked gold nanoparticles was analyzed. The exchange tunneling reactions were used to generate high concentrations of atomic hydrogen in impurity-helium solids. The dependence of atom concentration on the content of hydrogen in the injected gas mixture gave a maximum concentration of 7.51017 cm-3 hydrogen atoms for an initial gas ratio of H2:D2:He = 1:4:100.