2015
DOI: 10.1021/acsami.5b00183
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Gravure-Printed Sol–Gels on Flexible Glass: A Scalable Route to Additively Patterned Transparent Conductors

Abstract: Gravure printing is an attractive technique for patterning high-resolution features (<5 μm) at high speeds (>1 m/s), but its electronic applications have largely been limited to depositing nanoparticle inks and polymer solutions on plastic. Here, we extend the scope of gravure to a new class of materials and on to new substrates by developing viscous sol-gel precursors for printing fine lines and films of leading transparent conducting oxides (TCOs) on flexible glass. We explore two strategies for controlling … Show more

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Cited by 53 publications
(44 citation statements)
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“…At low Ca , pattern fidelity is deteriorated by ink drag‐out from the cells, while at high Ca , inefficient doctoring leaves inks in nonpatterned area. Optimal printing can be achieved by adjusting printing speed and ink parameters to make Ca ≈ 1 …”
Section: Printing Technology: Materials and Recent Developmentmentioning
confidence: 99%
“…At low Ca , pattern fidelity is deteriorated by ink drag‐out from the cells, while at high Ca , inefficient doctoring leaves inks in nonpatterned area. Optimal printing can be achieved by adjusting printing speed and ink parameters to make Ca ≈ 1 …”
Section: Printing Technology: Materials and Recent Developmentmentioning
confidence: 99%
“…Metal nanoparticles are well known in the literature for their use in various applications, e.g., in joining processes (Hausner et al, 2014), catalysis (Steffan et al, 2009;Zhang et al, 2015) and electronics (Gilles et al, 2013;Scheideler et al, 2015). This is caused by the size and shape-dependent properties of the nanoparticles (Wilcoxon & Abrams, 2006).…”
Section: Chemical Contextmentioning
confidence: 99%
“…Printed electronics has drawn tremendous interest in the past few decades 1 6 , as it offers an attractive alternative to conventional silicon-based fabrication technologies by enabling low-cost, large-area, flexible devices for many applications such as energy storage 7 , thin film transistor 8 , light-emitting diodes 9 and wearable sensors for health monitoring 10 . Central to this technology are high-performance functional inks and high-throughput printing methods, such as screen 11 15 , inkjet 16 18 , gravure 19 , 20 and flexographic printing 21 . Among the existing printing methods, gravure printing, which utilizes direct transfer of functional inks through physical contact of engraved structures with a substrate, is a promising option for large-scale applications due to its high-speed, high-resolution deposition of functional materials and compatibility with roll-to-roll processes.…”
Section: Introductionmentioning
confidence: 99%