A color-coordinated approach to the flow synthesis of silver nanoparticles with custom morphologies.

IF 4.6 3区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Nanoscale Advances Pub Date : 2024-12-18 DOI:10.1039/d4na00941j

Carly J Frank, Connor R Bourgonje, Mahzad Yaghmaei, Juan C Scaiano

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Abstract

In an effort to meet the high demand for silver nanostructures in both research and consumer applications, we devise a simple and readily scaleable photochemical method through which silver nanostructures of varying morphologies, sizes, and optical properties can be synthesized using batch and flow photochemical strategies. For the latter we build upon the application of a wrapped-lamp photochemical flow system recently developed by our group to enable sequential irradiation with several wavelengths of LEDs in series in an approach that we describe as "plasmon pushing". We find that this strategy can accelerate the conversion of silver nanoparticle seeds to decahedral and triangular nanostructures, and that with it we have control over the tuning of the size and optical properties of triangular nanostructures in the red and near-IR regions. Moreover, through sequential flow irradiation, we gain a better understanding of the formation pathways and relative stability of decahedral and triangular silver nanostructures.

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具有定制形态的银纳米颗粒流动合成的颜色协调方法。

为了满足银纳米结构在研究和消费应用中的高需求，我们设计了一种简单且易于扩展的光化学方法，通过该方法可以使用批处理和流动光化学策略合成不同形态，尺寸和光学性质的银纳米结构。对于后者，我们建立在我们小组最近开发的包裹灯光化学流系统的应用基础上，该系统能够以我们称之为“等离子体推动”的方法连续照射几个波长的led。我们发现这种策略可以加速银纳米粒子种子向十面体和三角形纳米结构的转化，并且可以控制三角形纳米结构在红色和近红外区域的尺寸和光学性质的调整。此外，通过序流辐照，我们更好地了解了十面体和三角形银纳米结构的形成途径和相对稳定性。

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