Facile ligand-exchange strategy to promote low-temperature nano-sintering of oleylamine-capped Ag nanoparticles
Microelectronics International
ISSN: 1356-5362
Article publication date: 16 January 2023
Issue publication date: 17 March 2023
Abstract
Purpose
This study aims to develop a facile ligand-exchange strategy to promote nano-sintering of oleylamine (OAM)-capped silver nanoparticles (AgNPs). By using ligand exchange process with NH4OH to remove OAM from the surface of AgNP, this study reports effectively reducing the sintering temperature of AgNPs to achieve low-temperature nano-sintering. Compared with untreated AgNPs of OAM-capped, NH4OH-treated AgNPs possess superior sintering performance that could be applied to a fractional generator device as conductor and in favour of the fabrication of flexible circuit modules.
Design/methodology/approach
First, oleylamine is used as reductant to synthesize monodisperse AgNPs by a simple one-step method. Then ligand exchange is used with NH4OH at different treating times to remove OAM, and micro-Fourier transform infrared spectroscopy and contact angle test are applied to clear the mechanism and structure characteristics of these processes. Finally, NH4OH-treated AgNPs sediment sintering is used at different temperatures to test electrical resistivity and use ex situ scanning electron microscopy combined with in situ X-ray diffraction to study changes in microstructure in the whole nano-sintering process.
Findings
The AgNPs are always capped by organic ligands to prevent nanoparticles agglomeration. And oleylamine used as reductant could synthesize desirable size distributions of 8–32 nm with monodisperse globular shapes, but the low-temperature nano-sintering seemed not to be achieved by the oleylamine-capped AgNPs because OAM is an organic with long C-chain. The ligand exchange approach was enabled to replace the original organic ligands capped on AgNPs with organic ligands of low thermal stability which could promote nano-sintering. After ligand exchange treated AgNPs could be sintered on photo paper, polydimethylsiloxane (PDMS) and polyethylene terephthalate flexible substrates at low temperature.
Originality/value
In this research, the method ligand exchange is used to change the ligand of AgNPs. During ligand exchange, NH4OH was used to treat AgNPs. Through the treatment of NH4OH, the change of hydrophilic and hydrophobic properties of AgNPs was successfully realized. The sintering temperature of AgNPs can also be reduced and the properties can be improved. Finally, the applicability of the AgNPs sediment with this nano-sintering process at low temperature for obtaining conductive patterns was evaluated using PDMS as substrates.
Keywords
Acknowledgements
This work was financially supported by the Science and Technology Planning Project of Shenzhen (Grant No. JCYJ201908 09161213154), Youth Innovation Fund Project of Xiamen (Grant No. 3502Z20206026), Science and Technology Committee of Central Military Commission of China (Grant No. 2021-JCJQ-LB-003) and Natural Science Foundation of Fujian Province (Grant No. 2022J01044).
Declaration of competing interest: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
Citation
Li, L., Zhang, Y., Xia, S., Sun, Z., Yuan, J., Su, D., Cao, H., Chai, X., Wang, Q., Li, J. and Zhang, Z. (2023), "Facile ligand-exchange strategy to promote low-temperature nano-sintering of oleylamine-capped Ag nanoparticles", Microelectronics International, Vol. 40 No. 2, pp. 132-139. https://doi.org/10.1108/MI-11-2022-0186
Publisher
:Emerald Publishing Limited
Copyright © 2022, Emerald Publishing Limited