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1.
J Am Chem Soc ; 139(29): 9851-9854, 2017 07 26.
Article in English | MEDLINE | ID: mdl-28696107

ABSTRACT

Despite enormous progress toward controlling the shapes and surface chemistry of colloidal nanoparticles, spatial control of nanoparticle surface chemistry remains a major challenge. In recent years, there have been tantalizing reports demonstrating anisotropic silica coating of gold nanorods in which silica is deposited only on the sides by functionalizing the nanorods with poly(ethylene glycol) methyl ether thiol (PEG-thiol) prior to silica coating, but such results have been difficult to reproduce. We report that the oxidation state of PEG-thiol is key to anisotropic silica coating, with the disulfide, not the thiol, leading to side silica coating. PEG-disulfide appears to selectively functionalize the ends of gold nanorods, and robust methods are developed to reliably deposit side silica shells on PEG-disulfide functionalized gold nanorods.

2.
ACS Nano ; 7(5): 4135-50, 2013 May 28.
Article in English | MEDLINE | ID: mdl-23634842

ABSTRACT

Despite the continuing interest in the applications of functionalized nanomaterials, the controlled and reproducible synthesis of many important functionalized nanoparticles (NPs) above the milligram scale continues to be a significant challenge. The synthesis of functionalized NPs in automated reactors provides a viable approach to circumvent some of the shortcomings of traditional nanomaterial batch syntheses, providing superior control over reagent addition, improved reproducibility, the opportunity to interface real-time product monitoring, and a viable high-throughput synthetic approach. Here, we demonstrate the construction and operation of a simple millifluidic reactor assembled entirely from commercially available components found in almost any chemical laboratory. This reactor facilitates the aqueous gram-scale synthesis of a variety of functionalized gold nanoparticles, including the synthesis of gold nanospheres with tightly controlled core diameters and gold nanorods with controlled aspect ratios between 1.5 and 4.0. The absolute dimensions (i.e., the transverse diameter) of gold nanorods synthesized within the reactor can also be tailored to produce different gold nanorod shapes, including "small" gold nanorods and gold nanocubes. In addition, we show that the reactor can interface with existing purification and monitoring techniques in order to enable the high-throughput functionalization/purification of gold nanorods and real-time monitoring of gold nanoparticle products for quality control. We anticipate that this millifluidic reactor will provide the blueprint for a versatile and portable approach to the gram-scale synthesis of monodisperse, hydrophilically functionalized metal NPs that can be realized in almost any chemistry research laboratory.

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