2014
DOI: 10.1039/c4fd00067f
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Inkjet printing of graphene

Abstract: The inkjet printing of graphene is a cost-effective, and versatile deposition technique for both transparent and non-transparent conductive films. Printing graphene on paper is aimed at low-end, high-volume applications, i.e., in electromagnetic shielding, photovoltaics or, e.g., as a replacement for the metal in antennas of radio-frequency identification devices, thereby improving their recyclability and biocompatibility. Here, we present a comparison of two graphene inks, one prepared by the solubilization o… Show more

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Cited by 69 publications
(42 citation statements)
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References 39 publications
(52 reference statements)
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“…The presence of a binder with a glass transition point above room temperature may lower the particle mobility even under high force applied, obstruct sheet-to-sheet interactions, and thereby render the application of compression rolling inefficient. Nevertheless, taking into account the two main aspects of performance an ink should provide, i.e., good printability with high printing definition and sufficiently low sheet resistance, e.g., less than 5 Ω & À1 , it becomes clear from previous works [16,[18][19][20]22,25,26,[28][29][30] that the use of a binder, surfactant, or rheology modifier is necessary. These rheological modifications should be compatible with the commonly used R2R-friendly flexible substrates and comply with already existing high-speed technologies.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…The presence of a binder with a glass transition point above room temperature may lower the particle mobility even under high force applied, obstruct sheet-to-sheet interactions, and thereby render the application of compression rolling inefficient. Nevertheless, taking into account the two main aspects of performance an ink should provide, i.e., good printability with high printing definition and sufficiently low sheet resistance, e.g., less than 5 Ω & À1 , it becomes clear from previous works [16,[18][19][20]22,25,26,[28][29][30] that the use of a binder, surfactant, or rheology modifier is necessary. These rheological modifications should be compatible with the commonly used R2R-friendly flexible substrates and comply with already existing high-speed technologies.…”
Section: Introductionmentioning
confidence: 99%
“…[11][12][13] Even though the field of printable conductors is still mainly focused on metalbased (Ag, Cu, %50 mΩ & À1 at 25 mm thickness) [13,14] inks and PEDOT:PSS dispersions (%50 Ω & À1 ), [15] graphene-based conductive inks are gaining attention both from science [16][17][18][19][20][21][22][23][24] and technology. [25] Unfortunately, the conductive properties of graphene inks and printed structures thereof are still far from being a replacement for silver and copper inks.…”
Section: Introductionmentioning
confidence: 99%
“…[ 37 ] In contrast, expanded graphite (EG) demonstrates much better dispersibility than graphite due to signifi cantly weakened van der Waals interactions on account of an increased distance between the layers. [ 13,[38][39][40] This results in much shorter times and smaller energy input to obtain well-exfoliated concentrated dispersions of typically large (>1 µm) fl ake graphene. [ 39,41 ] Colloidal stability, however, as for the exfoliation of graphite, requires the presence of surface active agents and can be adjusted accordingly.…”
mentioning
confidence: 99%
“…For example, ink annealing at 250 °C and higher for 30 min [ 18,24,25 ] signifi cantly limits the range of suitable substrates and fundamentally limits high speed R2R industrial realization. Thus, the design of graphene inks that meet the requirements of current R2R applications is still to be accomplished.There are several reports on the preparation of graphene-based inks comprising either graphene oxide (GO), [ 17,19,23,[27][28][29][30] or graphite exfoliated with [ 13,16,18,22,24,25 ] and without [ 20 ] surface active agents. The preparation of inks based on GO is relatively simple.…”
mentioning
confidence: 99%
“…of isopropanol and propylene glycol is the optimum to uniformly disperse graphene at a concentration of 0.1 mg/ml and use for thin film self-assembly. The colloidally stable (>1 month), non-toxic and water-miscible dispersions can be utilized not only for thin film self-assembly but also for the formulation of conductive paints and inks [64]. Independent of utilizing donor-or acceptor-type intermediates, thermally annealed thin films performed equally well in terms of sheet resistance and transmittance.…”
Section: Discussionmentioning
confidence: 87%