In this article, we describe how it is possible to tune the size and the aspect ratio of gold nanorods obtained using a highly efficient protocol based on the use of hydroquinone as a reducing agent by varying the amounts of CTAB and silver ions present in the ‘‘seed-growth’’ solution. Our approach not only allows us to prepare nanorods with a four times increased Au3+ reduction yield, when compared with the commonly used protocol based on ascorbic acid, but also allows a remarkable reduction of 50–60 % of the amount of CTAB needed. In fact, according to our findings, the concentration of CTAB present in the seed-growth solution do not linearly influence the final aspect ratio of the obtained nanorods, and an optimal concentration range between 30 and 50 mM has been identified as the one that is able to generate particles with more elongated shapes. On the optimized protocol, the effect of the concentration of Ag+ ions in the seed-growth solution and the stability of the obtained particles has also been investigated.
Control of size and aspect ratio in hydroquinone-based synthesis of gold nanorods / C. Morasso, S. Picciolini, D. Schiumarini, D. Mehn, I. Ojea Jiménez, G. Zanchetta, R. Vanna, M. Bedoni, D. Prosperi, F. Gramatica. - In: JOURNAL OF NANOPARTICLE RESEARCH. - ISSN 1388-0764. - 17:8(2015 Aug), pp. 330.1-330.7. [10.1007/s11051-015-3136-9]
Control of size and aspect ratio in hydroquinone-based synthesis of gold nanorods
D. Schiumarini;G. Zanchetta;
2015
Abstract
In this article, we describe how it is possible to tune the size and the aspect ratio of gold nanorods obtained using a highly efficient protocol based on the use of hydroquinone as a reducing agent by varying the amounts of CTAB and silver ions present in the ‘‘seed-growth’’ solution. Our approach not only allows us to prepare nanorods with a four times increased Au3+ reduction yield, when compared with the commonly used protocol based on ascorbic acid, but also allows a remarkable reduction of 50–60 % of the amount of CTAB needed. In fact, according to our findings, the concentration of CTAB present in the seed-growth solution do not linearly influence the final aspect ratio of the obtained nanorods, and an optimal concentration range between 30 and 50 mM has been identified as the one that is able to generate particles with more elongated shapes. On the optimized protocol, the effect of the concentration of Ag+ ions in the seed-growth solution and the stability of the obtained particles has also been investigated.
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