Journal
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
Volume 662, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.colsurfa.2023.131002
Keywords
Silver nanoparticles; Nanoparticle adhesion; Size distribution; Polymer microparticles; Methacrylic acid; N' methylene-bis-acrylamide
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Poly methacrylic acid (MAA) microparticles were synthesized using different formulations containing crosslinker methylene-bis-acrylamide (MBA). The effect of MBA content on the adhesion, size distribution, and quantity of silver nanoparticles was evaluated. The study found that above 20 wt% crosslinker content, silver nanoparticle adhesion to the polymer surface increased, while above 35 wt%, the microparticle morphology hindered silver ion binding and subsequent silver nanoparticle formation. Additionally, within the range of 20-35 wt% MBA content, the size distribution of silver nanoparticles could be tuned. This research provides insights into the controlled synthesis of silver nanoparticles.
In this study poly methacrylic acid (MAA) microparticles were synthesized with variations in methylene-bis-acrylamide (MBA), with MBA in the role of the crosslinker. The as produced microparticles serve as substrates for the growth of silver nanoparticles while evaluating the effect of different crosslinker content. Each formu-lation was assessed in terms of silver nanoparticle adhesion, size distribution and silver quantity. Experimental evidence reveals that while incorporating crosslinker above 20 wt% with respect to the monomer, silver nanoparticle adhesion to the polymer surface increases, whereas in formulations above 35 wt% microparticle morphology hinders silver ion binding and the subsequent formation of silver nanoparticles. In addition, TEM microcopy combined with image classification analysis reported that in the range of 20-35 wt% MBA content, silver nanoparticle size distribution can be tuned. Evidently, MBA content between 20 wt% and 35 wt% (in relation to MAA) exhibits a dynamic state where carboxylic acid terminated functional side groups and amino -terminal side groups provide a synergistic effect in silver ion binding thus opening a functional pathway towards the controlled synthesis of silver nanoparticles.
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