The moving single-bubble sonoluminescence of Ce in water and ethylene glycol solutions of CeCl and (NH)Ce(NO) was studied. As found, a significant part of intensity of the luminescence (100% with cerium concentration less than 10 M) is due to the sonochemiluminescence. A key reaction of sonochemiluminescence is the Ce reduction by a solvated (or hydrated in water) electron: Ce + e (e) → *Ce. Solvated electrons are formed in a solution via electrons ejection from a low-temperature plasma periodically generated in deformable moving bubble at acoustic vibrations. Reactions of heterolytic dissociation of solvents make up the source of electrons in the plasma. In aqueous CeCl solutions, the Ce ion is formed at the oxidation of Ce by OH radical. The latter species originates from homolytic dissociation of water in the plasma of the bubble, also penetrating from the moving bubble into the solution. The sonochemiluminescence in cerium trichloride solutions are quenched by the Br (acceptor of OH) and H ions (acceptor of e). In water and ethylene glycol solutions of (NH)Ce(NO), the sonochemiluminescence also quenched by the H ion. The sonochemiluminescence in CeCl solutions is registered at [Ce] ≥ 10 M. Then the sonochemiluminescence intensity increases with the cerium ion concentration and reaches the saturation plateau at 10 M. It was shown that sonophotoluminescence (re-emission of light of bubble plasma emitters by cerium ions) also contributes to the luminescence of Ce in solutions with [Ce] ≥ 10 M. If the cerium concentration is more than 10 M, a third source contributes to luminescence, viz., the collisional excitation of Ce ions penetrating into the moving bubble.
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| http://dx.doi.org/10.1016/j.ultsonch.2020.105313 | DOI Listing |
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