2017
DOI: 10.1039/c7ra01005b
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Stabilization of the thermal decomposition process of self-reducible copper ion ink for direct printed conductive patterns

Abstract: In this study, a thermally triggered self-reducible copper ink is developed to print conductive patterns on flexible substrates. Inks containing only copper formate (CuF) and monoisopropanol amine (MIPA) generated large bubbles in the CuF decomposing process, and thus the surface morphologies of prepared thin films were largely disturbed. With the addition of octylamine (OA), the bubbling disturbance was relieved due to the lower surface tension and the film uniformity was greatly improved. A low resistivity o… Show more

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Cited by 28 publications
(18 citation statements)
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“…Huang et al synthesised a Cuf ink complexed with monoisopropanolamine. [81] Octylamine was added to the ink to improve surface tension and PVP was added as an adhesion promoter. Thermal sintering of the ink on glass at 140 8C for 5 min under N 2 resulted in films with 1 = 2.00 10 À7 W m. Following this in 2018, Xu et al aimed to optimise Cuf based inks by studying the effect of water concentration on shelf life and film resistivity (Figure 12).…”
Section: Copper Mod Inksmentioning
confidence: 99%
See 1 more Smart Citation
“…Huang et al synthesised a Cuf ink complexed with monoisopropanolamine. [81] Octylamine was added to the ink to improve surface tension and PVP was added as an adhesion promoter. Thermal sintering of the ink on glass at 140 8C for 5 min under N 2 resulted in films with 1 = 2.00 10 À7 W m. Following this in 2018, Xu et al aimed to optimise Cuf based inks by studying the effect of water concentration on shelf life and film resistivity (Figure 12).…”
Section: Copper Mod Inksmentioning
confidence: 99%
“…Huang et al. synthesised a Cuf ink complexed with mono‐isopropanolamine [81] . Octylamine was added to the ink to improve surface tension and PVP was added as an adhesion promoter.…”
Section: Recent Developments In Metal Inksmentioning
confidence: 99%
“…The transmitted-light microscopy images show that numerous holes are present in the Cu film on PI (electronic supplementary material, figure S4a), whereas fewer holes are present in the Cu film on cellulose paper (electronic supplementary material, figure S4b). The gas released from the decomposition of the MOD ink can reduce the quality of the produced Cu film [31]. As a result, many holes (caused by the gas release) are observed in the Cu films on PI substrates.…”
Section: Resultsmentioning
confidence: 99%
“…Thus, IPL with multiple pulses [20] is found to generate more uniform temperature distribution on nanoparticle thin films and results in more effective sintering without film damages. Besides nanoparticle inks, metal organic decomposition (MOD) inks [21,22,23,24,25] have also been proposed to produce conductive tracks. These inks containing metal salts can be easily converted into metal tracks via thermal or plasma post treatments.…”
Section: Introductionmentioning
confidence: 99%