2016
DOI: 10.1038/ncomms11402
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Nanoparticle chemisorption printing technique for conductive silver patterning with submicron resolution

Abstract: Silver nanocolloid, a dense suspension of ligand-encapsulated silver nanoparticles, is an important material for printing-based device production technologies. However, printed conductive patterns of sufficiently high quality and resolution for industrial products have not yet been achieved, as the use of conventional printing techniques is severely limiting. Here we report a printing technique to manufacture ultrafine conductive patterns utilizing the exclusive chemisorption phenomenon of weakly encapsulated … Show more

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Cited by 112 publications
(95 citation statements)
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“…Flexible electronic devices have attracted extensive attention owing to their widespread application. One of the key areas under rapid development is wearable electronics . However, when it comes to applications with unconventional interfaces, traditional substrates result in a problem of mechanical mismatch .…”
Section: Applicationsmentioning
confidence: 99%
“…Flexible electronic devices have attracted extensive attention owing to their widespread application. One of the key areas under rapid development is wearable electronics . However, when it comes to applications with unconventional interfaces, traditional substrates result in a problem of mechanical mismatch .…”
Section: Applicationsmentioning
confidence: 99%
“…An aspect ratio of 0.7 was obtained for the Ag line shown in Figure d, which is only 3 µm wide at the upper exposed flat area and 4.6 µm wide at its widest section. This line width is much smaller than the typical values of 10–50 µm from regular inkjet printing, and is achieved without requiring prepatterning of the substrate to guide ink flow or to extract extra ink . It must also be noted that this aspect ratio is very high for printed metal lines.…”
Section: Resistance Per Unit Length Resistivity and Sheet Resistancmentioning
confidence: 92%
“…Recently, increased attention on the additive processes has been paid for printed electronics (PE) technology, due to the corrosive chemicals and environment pollution in subtractive processes [1,2]. However, fine-line and electrical conductivity are the critical requirements for additive processes in printed electronics technology because the performance and reliability of an electric device depend on the scale and conductivity of the pattern [3,4]. For instance, Fujikura Company printed 30 μm Ag conductive paste patterns on polyethylene telephthalate (PET) film with resistance of 40 μΩ·cm by gravure offset printing technology [5].…”
Section: Introduction mentioning
confidence: 99%