Abstract
Abstract
In this work the process of optical breakdown under laser irradiation by nanosecond pulses with an energy of 650 mJ of aqueous solutions of Ni nanoparticles is investigated. A monotonic change in the number of breakdowns, the average distance between closest breakdowns, the average plasma size of an individual breakdown, the luminosity of a plasma flash, the intensity of acoustic signals, and the rate of formation of dissociation products—O2, H2, OH•, and H2O2 with an increase in the irradiation time was established. With an increase in the concentration of nanoparticles, the measured values change non-monotonically. The maximum luminosity of a plasma flash is observed at a nanoparticle concentration of 109 NP ml−1 and 1010 NP ml−1 and reaches 350 cd m−2. The maximum pressure at the shock front is 1.5–2 MPa at a nanoparticle concentration of 1010 NP ml−1. The maximum rates of generation of O2, H2, OH• and H2O2 are observed at concentrations of 109 NP ml−1 and 1010 NP ml−1. Correlation analysis of the studied physicochemical phenomena shows that the formation of molecular gases is associated with acoustic processes, and the formation of radical products and hydrogen peroxide correlates with the physicochemical properties of plasma.
Funder
Ministry of Science and Higher Education of the Russian Federation
Cited by
16 articles.
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