Abstract
Sargassum species-based extracts were used to carry out the synthesis of homogeneous gold nanoparticles. Various techniques were used to determine the characteristics and composition of the nanoparticles. The UV-Vis results showed that the 50% water/ethanol extract had the most reducing agents and stabilizers. Therefore, this type of extract was used to synthesize nanoparticles and for their subsequent characterization. Crystallinity and crystal size were evaluated using X-ray diffraction. Size and morphology were analyzed using scanning electron microscopy, showing that the gold nanoparticles were mostly spherical, with a size range of 15–30 nm. The catalytic activity of the gold nanoparticles was evaluated through the degradation of organic dyes: methylene blue, methyl orange, and methyl red. The degradation rates were different, depending on the nature of each dye, the simplest to degrade was methylene blue and methyl red was the most difficult to degrade. The results indicated that the use of Sargassum spp. for the synthesis of gold nanoparticles has potential in the remediation of water that is contaminated with organic dyes. Moreover, given the recent serious environmental and economic problems caused by the overpopulation of Sargassum spp. in the Mexican Caribbean, the findings hold promise for their practical and sustainable use in the synthesis of nanomaterials.
Highlights
The pollution of water by organic dyes is a serious problem worldwide
A decrease in the absorption band was observed when the degradation was carried out in the absence of the UV-Vis source, corresponding to degradations between 10 and 20%, after 9 min. These results demonstrate the ability of AuNPs with NaBH4 to degrade organic dyes, and that the reaction rate can be increased by using a UV-Vis light source
From the results of this work, it is seen that Sargassum spp. contains compounds with antioxidant capacity that can reduce gold ions and subsequently stabilize nanosized particles
Summary
The pollution of water by organic dyes is a serious problem worldwide. These substances are widely used by the paper, textile, pharmaceutical, and cosmetic industries [1,2]to provide color to a given material or object. The pollution of water by organic dyes is a serious problem worldwide. These substances are widely used by the paper, textile, pharmaceutical, and cosmetic industries [1,2]. The removal of organic dyes is of great interest because they are highly toxic, carcinogenic, and mutagenic compounds [4,5]. They are highly soluble in water and have great stability, making removal difficult [6]. Various methods exist for their removal, including absorption, filtration, osmosis, and flocculation [7], but these are expensive, complex, and inefficient
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