TITLE:
On the Galvanic Modification of Seawater
AUTHORS:
Alexander Shimkevich
KEYWORDS:
Non-Stoichiometric Seawater, Band Gap, Fermi Level, Galvanic Cell, Electron Donor, Sodium Hypochlorite
JOURNAL NAME:
World Journal of Condensed Matter Physics,
Vol.9 No.4,
October
30,
2019
ABSTRACT: Chemical properties of seawater are studied at forced shifting of Fermi level εF in the band gap of liquid water due to deviation of its composition H2O1−z ( |z|−13 ) from the stoichiometric one ( z = 0 ). It is shown that the hypo-stoichiometric state ( z > 0 ) of seawater emerges when Fermi level is shifted to the local electron level εH3O of hydroxonium H3O+ in galvanic cell with the strongly polarized anode and the quasi-equilibrium cathode. Then, each εH3O is occupied by electron and hydroxonium radicals [H3O] together with hydroxide anions [OH−]form in seawater hydrated electrons [(H2O)2−] . The opposite hyper-stoichiometric state ( z εOH for removing electron from each hydroxide ion OH− and forming hydroxyl radicals [OH] as strong oxidizers. It turned out that the ions of sodium and chlorine are connected into hydrates of sodium hypochlorite NaClO in this case.