Abstract
Concentration procedures have always been implemented when trace analysis of compounds in real matrices is contemplated. A variety of concentration strategies have been reported aiming at decreasing the limits of detection (LODs). The optical concentration of the substance in solution is one of the novel concepts for the enhancement of the analytical sensitivity. In this study, the optical concentration has been measured by the trapping of gold nanoparticles ( nm) dispersed in water at low-concentrations at the focal volume of the laser beam. The influence of factors such as the time of gold nanoparticle trapping, the size of the nanoparticles, the intensity of the laser beam, their solution concentration have been reported on the accumulation of gold nanoparticles in the solution. The results showed at different laser intensities, the capacity of the optical trap changed. At low concentrations of gold nanoparticles, the signal increased linearly with the concentration until the capacity of the optical trap was filled. Also, the best optical concentration efficiency was observed when the time of trapping increased to a period of 40 s. Under the optimum conditions, the relative concentration increase of gold nanoparticles was calculated across the range of to particles at the focal volume of the laser beam for the range from particle/mL of gold nanoparticles in the solution at a laser intensity of mW. This approach may be used to quantitatively determine of gold nanoparticles, supermolecules, and other nanoparticles.
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