4.6 Article

Fast synthesis of silver colloids with a low-cost 3D printed photo-reactor

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ELSEVIER
DOI: 10.1016/j.colcom.2021.100457

Keywords

Silver nanoparticles; Photo-aggregation; Photo-irradiation; Milli-fluidic devices; 3D printing

Funding

  1. Poli Grant Program at Universidad San Francisco de Quito

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A low-cost 3D printed photo-reactor system was used to synthesize silver nanoparticles with different morphologies in continuous flow. The combination of milli-fluidic devices and LED light illumination significantly accelerated the growth process compared to batch systems. The study revealed three stages of induction, growth, and termination during photo-aggregation in the continuous flow reactor, showing that H2O2 treated samples grew 3.5 times faster than non-treated AgNP colloids.
Herein, a low-cost 3D printed photo-reactor system for the photo-chemical synthesis of silver nanoparticles with different morphologies is presented. Silver colloids with a variety of colors were obtained after light irradiation in continuous flow. The combination of milli-fluidic devices and LED light illumination clearly speeds up the growing process (hours) compared to batch systems (day to months) with similar initial colloids. Moreover, the effect of residence time, and reactant concentrations were investigated. Results indicated three stages, such as induction, growth, and termination during photo-aggregation within the continuous flow reactor. Moreover, H2O2 treated samples grew 3.5 times faster than non-treated AgNP colloids, with a complete NP formation under 4 h.

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