Facile One-Pot Polyol Method for the Synthesis of Uniform Size Silver Nanowires

Zhang, Kaili; Du, Yukou; Shimin, Chen

doi:10.1166/jnn.2016.12158

Cited by 5 publications

(5 citation statements)

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“…The formation of Ag NRs instead of longer Ag NWs may be due to the fact that the growth of Ag RBPs and the enlargement of diameters consumed more silver source, impeding the elongation of 1D Ag structures. Similar shortening mechanism was proved in other research on synthesizing Ag NRs . When more CQ was added, many byproducts of near-spherical silver particles were observed, as can be seen in Figure E, indicating that an overdose of CQ was unfavorable to the syntheses of Ag NRs and Ag RBPs.…”

Section: Resultssupporting

confidence: 85%

“…It determines the diffusion coefficient, reduction kinetics, and also the reducibility of EG. In polyol synthesis, the length and diameter of Ag NWs are changed with temperature. ,, When CQ is added, the temperature also plays an important role in determining the morphology of products. SEM images of the obtained Ag nanostructures prepared at 100, 110, 120, and 150 °C and the corresponding yields of Ag NRs are shown in Figure .…”

Section: Resultsmentioning

confidence: 99%

“…Similar shortening mechanism was proved in other research on synthesizing Ag NRs. 37 When more CQ was added, many byproducts of near-spherical silver particles were observed, as can be seen in Figure 7E, indicating that an overdose of CQ was unfavorable to the syntheses of Ag NRs and Ag RBPs. Besides morphologies, the yields of both Ag NRs and Ag RBPs also changed a lot with the increased CQ/AgNO 3 molar ratios.…”

Section: Effect Of Cq On Polyol Syntheses Of Ag Rightmentioning

confidence: 90%

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Improved Polyol Syntheses of Silver Right Bipyramids and Nanorods: Camphorquinone-Mediated Morphology Control Methods

Zhu

Wang

et al. 2023

Crystal Growth & Design

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In this research, camphorquinone (CQ)-mediated one-pot polyol methods to synthesize silver right bipyramids and nanorods with high yields are developed. The key strategy of these methods is the use of CQ which is first applied to selectively stabilize Ag(100) facets through capping. As CQ stabilizes small-sized nanocrystals, including single-twinned and nanorod structures, we successfully synthesized silver right bipyramids and nanorods as the two dominant products in a CQ-mediated polyol system. Further morphology control between silver nanorods and silver right bipyramids is conducted through adjusting the poly(vinylpyrrolidone) (PVP) concentration and reaction temperature, which can improve the formation of single-twinned and fivefold twinned particles through affecting the reduction kinetics. Silver nanorods with a yield of 87% are obtained under 150 °C with a PVP/CQ/AgNO3 molar ratio of 1.2:2:1, while silver right bipyramids with a yield of 88% are obtained under 120 °C with a molar ratio of 1.6:2:1.

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Section: Resultssupporting

confidence: 85%

Section: Resultsmentioning

confidence: 99%

Section: Effect Of Cq On Polyol Syntheses Of Ag Rightmentioning

confidence: 90%

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Improved Polyol Syntheses of Silver Right Bipyramids and Nanorods: Camphorquinone-Mediated Morphology Control Methods

Zhu

Wang

et al. 2023

Crystal Growth & Design

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“…Kaili et al emphasized the importance of temperature in the range of 110-160°C as it determines the diffusion and reaction (nucleation and growth) rates. They showed that nanowire size decreases as the temperature increases due to increasing nucleation and growth [90]. Nghia et al used a microwave technique (800 W microwave oven equipped with a condenser) to synthesize AgNWs quickly with an irradiation time of 3.5 minutes and found that morphology depends strongly on the rate of heat [59].…”

Section: Effect Of Temperature In the Polyol Synthesis Of Agnwsmentioning

confidence: 99%

“…Kaili et al showed that PVP as a capping agent not only plays an essential role in preventing seed agglomeration but also helps heterogeneous growth of MTPs to wire shape. They investigated the effect of PVP molecular weight (55,000, 360,000, and 13,000,000) on the diameter and length of synthesized AgNWs and showed that while PVPs with large MW provide better product quality, very large MW (13,000,000) PVP is not suitable for synthesis of AgNWs with a high aspect ratio without nanoparticles as byproducts due to the viscous effect of the polymers [90].…”

Section: Effect Of Pvp Concentration and Molecular Weight As Amentioning

confidence: 99%

Polyol Silver Nanowire Synthesis and the Outlook for a Green Process

Hemmati

Harris

Barkey

2020

Journal of Nanomaterials

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Silver nanowires (AgNWs) have a broad range of applications including nanoelectronics, energy conversion, health care, solar cells, touch screens, sensors and biosensors, wearable electronics, and drug delivery systems. As their characteristics depend strongly on their size and morphology, it is essential to find the optimal and most cost-effective synthesis method with precise control over the size and morphology of the wires. Various methods for AgNW synthesis have been reported along with process optimization and novel techniques to increase the yield and aspect ratios of synthesized AgNWs. The most promising processes for synthesis of AgNWs are wet chemical techniques, in which the polyol process is low cost and simple and provides high yield compared to other chemical methods. Reaction mechanism is one of the most important factors in strategies to control the process. Our purpose here is to provide an overview on the main findings regarding synthesis, preparation, and characterization of AgNWs. Recent efforts in the polyol synthesis of AgNWs are summarized with respect to product morphology and size, reaction conditions, and characterization techniques. The effect of essential factors such as reagent concentration and preparation, temperature, and reaction atmosphere that control the size, morphology, and yield of synthesized AgNWs is reviewed. Moreover, a review on the novel modified polyol process and reactor design such as continuous millifluidic and flow reactors to increase the yield of synthesized AgNWs on large scales is provided. The most recent proposed growth mechanisms and kinetics behind the polyol process are addressed. Finally, comparatively few available studies in green and sustainable development of 1D silver nanostructures through the application of natural products with inherent growth termination, stabilization, and capping characteristics are reviewed to provide an avenue to natural synthesis pathways to AgNWs. Future directions in both chemical and green synthesis approaches of AgNWs are addressed.

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