用于合成超细银粉和制造银浆的无容器微流体化学还原技术

IF 5.8 2区 材料科学 Q2 CHEMISTRY, PHYSICAL
Panzhen Li, Zhe Huang, Jin Yang, Chenhe Zhang, Siwei Tang, Yunzhu Ma, Wensheng Liu
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引用次数: 0

摘要

作为太阳能电池的重要互连材料,光伏银浆的需求量很大。作为导电相的银粉在很大程度上影响着银浆的导电性。本研究采用微流控技术实现分子水平的快速均匀混合,并研究了微流控工艺条件和反应速率对银粉形态的影响。其中,微流控技术可以防止容器壁上的异质成核。在抗坏血酸浓度为 1.5 mol/L 的条件下,通过两个微流体以 10 mL/min 的流速进行对流反应,制备出尺寸为 0.70-0.80 μm 的球形银粉。与大混合法相比,这种银粉的形状规整性更好。当与微米片状银粉以 1:1 的质量比混合并在 150℃ 下烧结 45 分钟后,微流控制备的银粉的电阻率达到 2.72 × 10-5 Ω.cm。这项工作介绍了一种制备亚微米银粉的新方法,在太阳能电池银浆领域具有重要应用价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Container-Free Microfluidic Chemical Reduction for Synthesizing Ultrafine Silver Powder and Fabricating Silver Paste
As an important interconnecting material for solar cells, photovoltaic silver paste is in high demand. The silver powder, used as the conductive phase, greatly influences the conductivity of the paste. In this study, microfluidic technology was employed to achieve rapid and uniform mixing at the molecular level and the influence of microfluidic process conditions and reaction rates on silver powder morphology was investigated. Particularly, microfluidic technology can prevent the heterogeneous nucleation on wall of container. Using a 1.5 mol/L ascorbic acid concentration, spherical silver powder measuring 0.70–0.80 μm was produced through the convection reaction of two microflows at a 10 mL/min flow rate. This silver powder exhibited better shape regularization compared to that produced by macromixing. When mixed with micron flake silver powder in a 1:1 mass ratio and sintered at 150℃ for 45 min, the microfluidically prepared silver powder achieved a resistivity of 2.72 × 10−5 Ω.cm. This work introduces a new approach for preparing submicron silver powder, which has important applications in the solar cell silver paste field.
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来源期刊
Journal of Alloys and Compounds
Journal of Alloys and Compounds 工程技术-材料科学:综合
CiteScore
11.10
自引率
14.50%
发文量
5146
审稿时长
67 days
期刊介绍: The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.
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