Abstract
This study investigates the processes of interaction of nanosecond pulsed-periodic laser radiation with the flow of aerosol agglomerates of gold nanoparticles synthesized in a spark discharge. Nanoparticles in a gas flow are spatially separated nano-objects whose interaction with each other and with the walls of an experimental cell was insignificant. Therefore, the energy absorbed by nanoparticles was used only for their own heating with further shape and size modification and on heat transfer to the surrounding gas. In the research, we used laser radiation with wavelengths of 527 and 1053 nm at pulse energies up to 900 µJ and pulse repetition rates up to 500 Hz. The dynamics of changes in the nanoparticles size during their sintering process depending on the laser pulses energy is characterized by an S-shaped shrinkage curve. Complete sintering of the initial agglomerates with their transformation into spherical nanoparticles is achieved by a series of impacting laser pulses. The result of nanoparticles’ laser modification is largely determined by the pulse energy and the efficiency of the nanoparticles’ radiation absorption.
Highlights
We study the processes of interaction of nanosecond pulsed-periodic laser radiation with wavelengths of 527 and 1053 nm with aerosol gold NPs synthesized by the spark discharge (SD) directly in the aerosol stream
This work demonstrates the method for modifying aerosol gold NPs by nanosecond pulsed-periodic laser radiation with wavelengths of 527 and 1053 nm, combining the radiation direction with the aerosol flow
10 nm synthesized by the SD directly in gas stream formed dendrite-like agglomerates with the average sizes of 188–280 nm during transportation, depending on the gas flow rate
Summary
The optical properties of completely isolated NPs have been studied by computational methods mainly for simple shapes: for example, for spheres, cylinders, and pyramids [3,4,5], as well as for hybrid core-shell particles [6,7]. The use of such methods to asymmetric particles with a disordered structure is a more complex task, which was solved in a limited number of works, for instance, in [8].
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