Formation of Small Gold Nanoparticle Chains with High NIR Extinction through Bridging with Calcium Ions

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• 作者：Robert J. Stover ; Ehsan Moaseri ; Sai P. Gourisankar ; Muhammad Iqbal ; Negin K. Rahbar ; Behzad Changalvaie ; Thomas M. Truskett ; Keith P. Johnston
• 刊名：Langmuir
• 出版年：2016
• 出版时间：February 2, 2016
• 年：2016
• 卷：32
• 期：4
• 页码：1127-1138
• 全文大小：547K
• ISSN：1520-5827

文摘

The self-assembly of citrate-capped Au nanoparticles (5 nm) resulted in branched nanochains by adding CaCl₂ versus spherical nanoclusters for NaCl. These assemblies were formed between 1 s to 30 min by tuning the electrostatic repulsion and the interparticle bridging attraction between the cations and citrate ligands as a function of electrolyte concentration. For dilute Cap>2+p>, strong interparticle bridging favored particle attachment at chain ends. This resulted in the formation of small, branched chains with lengths as short as 20 nm, due to the large Debye length for the diffuse counterions. Furthermore, the bridging produced very small interparticle spacings and sintering, as evident in high-resolution TEM despite the low temperature. This morphology produced a large red shift in the surface plasmon resonance, as characterized by a broad extinction peak with NIR absorption out to 1000 nm, which is unusual for such small particles. Whereas these properties were seen for primary particles with partial citrate monolayers, the degrees of sintering and NIR extinction were small in the case of citrate multilayers. The ability to design the size and shape of nanoparticle clusters as well as the interparticle spacing by tuning bridging and electrostatic interactions may be expected to be quite general and of broad applicability in materials synthesis.