2020
DOI: 10.1038/s41598-020-72689-x
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Multi-pulse laser-induced bubble formation and nanoparticle aggregation using MoS2 nanoparticles

Abstract: Understanding of how particles and light interact in a liquid environment is vital for optical and biological applications. MoS2 has been shown to enhance nonlinear optical phenomena due to the presence of a direct excitonic resonance. Its use in biological applications is predicated on knowledge of how MoS2 interacts with ultrafast (< 1 ps) pulses. In this experiment, the interaction between two femtosecond pulses and MoS2 nanoparticles suspended in liquid is studied. We found that the laser pulses induce … Show more

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Cited by 6 publications
(2 citation statements)
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“…For the pulsed laser, bubbles grow slower and they do not shrink for at least 3 minutes after switching off the excitation. This observation correlates with the report in 49 . It is worth noting that the conditions in 45 are signi cantly different from those, we have here.…”
Section: Bubble Formationsupporting
confidence: 94%
“…For the pulsed laser, bubbles grow slower and they do not shrink for at least 3 minutes after switching off the excitation. This observation correlates with the report in 49 . It is worth noting that the conditions in 45 are signi cantly different from those, we have here.…”
Section: Bubble Formationsupporting
confidence: 94%
“…The interaction of a femtosecond laser beam with a target results in local material vaporization and the formation of a high-temperature plasma plum. Since the molten layer of the target and the plasma plum are in direct contact with the liquid, a supercritical temperature liquid can be formed that assists the formation of a short-lived and hemispherical membrane, a so-called cavitation bubble [14], in which primary and secondary nanoparticles are generated and encapsulated [15]. After the collapse of the cavitation bubble, the nanoparticles remain dispersed in solution.…”
Section: Introductionmentioning
confidence: 99%