AI Article Synopsis
- * The findings showed that increasing laser power raised NP concentration, while higher laser scanning speeds decreased concentration; the NPs ranged in size from 89 to 155 nm in diameter.
- * Analysis revealed a mainly spherical shape for the NPs and the presence of silicon, carbon, and some oxygen; also, adding glycerol changed the viscosity of the colloidal solution to a maximum of 10.95 mPa·s.
Article Abstract
In this study, silicon carbide nanoparticles (NPs) were produced via pulsed laser ablation in liquid, aiming to investigate the influence of processing parameters on the properties of the resultant NPs and their applicability for inkjet printing. The results revealed an increase in NP concentration with increasing laser power, but the maximal absorbance in the case of 0.743 and 1.505 W is lower than that for 1.282 W laser. Dynamic light scattering was employed to determine the size distribution of the NPs, demonstrating a range of 89 to 155 nm in diameter. Notably, an inverse relationship was established between increasing laser scanning speed and pulse repetition rate (PRR) and the mean size of the NPs. Higher PRR and laser power exhibited an augmentation in the concentration of NPs. Conversely, an increase in scanning speed resulted in a reduction in NP concentration. Based on FTIR, data formation of SiC NPs based on the target material is the most dominant behavior observed followed by an amount of oxidation of the NPs. Examination of the resulting NPs through field emission scanning electron microscopy equipped with energy-dispersive X-ray analysis (EDX) unveiled a predominantly spherical morphology, accompanied by particle agglomeration in some cases, and the elemental composition showed silicon, carbon, and some oxygen present in the resulting NPs. Furthermore, the modulation of colloidal solution viscosity was explored by incorporating glycerol, yielding a maximal viscosity of 10.95 mPa·s.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11433422 | PMC |
| http://dx.doi.org/10.3390/ma17184527 | DOI Listing |
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