超高纵横比银纳米片的水热合成及其作为加热器和浆料中导电填料的性能。

The hydrothermal synthesis of ultra-high aspect ratio Ag nanoflakes and their performance as conductive fillers in heaters and pastes.

作者信息

Wang Hua, Yang Wenjuan, Li Kaibin, Li Guanghai

机构信息

Key Laboratory of Materials Physics, Anhui Key Laboratory of Nanomaterials and Nanostructures, Institute of Solid State Physics, Chinese Academy of Sciences Hefei 230031 PR China

University of Science and Technology of China Hefei 230026 PR China.

出版信息

RSC Adv. 2018 Feb 28;8(16):8937-8943. doi: 10.1039/c7ra11937b. eCollection 2018 Feb 23.

DOI:10.1039/c7ra11937b

PMID:35539836

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9078582/

Abstract

Ag nanoflakes with a size ranging from 5 to 60 μm, a thickness of several tens of nanometers and an aspect ratio of up to 800 have been synthesized a hydrothermal method. PVP was used as both a surfactant, inducing anisotropic growth of the Ag nanoflakes, and as a reductant, reducing Ag to Ag. An Ag-oxalate complex was used as a precursor, allowing effective control of the kinetic growth of the Ag nanoflakes. Influences on the size and morphology of the Ag nanoflakes, such as H concentration and reaction time, were discussed and analyzed. Our method can be easily scaled up for mass production. A large interfacial contact area between the Ag nanoflakes with more electrical channels makes the Ag nanoflakes excellent conductive fillers.

摘要

已经通过水热法合成了尺寸范围为5至60μm、厚度为几十纳米且纵横比高达800的银纳米片。聚乙烯吡咯烷酮（PVP）既用作表面活性剂，诱导银纳米片的各向异性生长，又用作还原剂，将银还原为银单质。草酸银配合物用作前驱体，可有效控制银纳米片的动力学生长。讨论并分析了诸如氢离子浓度和反应时间等对银纳米片尺寸和形态的影响。我们的方法易于扩大规模进行大规模生产。具有更多导电通道的银纳米片之间的大界面接触面积使其成为优异的导电填料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a2db/9078582/ea1093c000eb/c7ra11937b-f1.jpg

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超高纵横比银纳米片的水热合成及其作为加热器和浆料中导电填料的性能。

The hydrothermal synthesis of ultra-high aspect ratio Ag nanoflakes and their performance as conductive fillers in heaters and pastes.

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