Recently, laser irradiation (LI) of colloidal nanoparticles (NPs) using a non-focused laser beam at moderate fluence attracts much attention as a novel and simple technique to obtain submicron-sized spherical particles (SMPs). In the present study, we applied this technique to prepare gold SMPs. It was revealed that agglomeration of the source NPs prior to LI is necessary to produce SMPs. However, when the agglomeration occurred in too much extent, significant amount of the source particles remained as the sediment after LI, leading to the lowering of the formation efficiency of SMPs. Therefore, the control of the agglomeration conditions of the source NPs is necessary to obtain SMPs efficiently. In the present study, we tried to adjust the agglomeration conditions of the source NPs by adding citrate that was used as the stabilizing reagent of the source NPs. It was revealed that SMPs were obtained efficiently while the sedimentation of the source NPs were suppressed when the concentration of citrate was adjusted around 0.01-0.005 mM. In addition, observation of the temporal change in the shape of the colloidal particles during LI revealed that an induction period, in which no formation of SMPs is brought about by LI, is observed in the beginning of LI. The presence of the induction period suggested that LI removes the citrate ligands from the source NPs and then induces the agglomeration of the source NPs, i.e. the agglomeration condition of the source NPs is also controlled by LI.
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