2013
DOI: 10.1007/s13391-013-3027-0
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Inkjet catalyst printing and electroless copper deposition for low-cost patterned microwave passive devices on paper

Abstract: A scalable, low-cost process for fabricating copper-based microwave components on flexible, paper-based substrates is demonstrated. An inkjet printer is used to deposit a catalyst-bearing solution (tailored for such printing) in a desired pattern on commercially-available, recyclable, non-toxic (Teslin ® ) paper. The catalystbearing paper is then immersed in an aqueous copper-bearing solution to allow for electroless deposition of a compact and conformal layer of copper in the inkjet-derived pattern. Meander m… Show more

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Cited by 52 publications
(37 citation statements)
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“…Using nanoparticle ink with a higher silver loading (>20 wt%) may be an option. An alternative to nanoparticle-based printing that shows promise for reducing the resistance is a catalysis-based electroless metal deposition printing method [28].…”
Section: B Inductorsmentioning
confidence: 99%
“…Using nanoparticle ink with a higher silver loading (>20 wt%) may be an option. An alternative to nanoparticle-based printing that shows promise for reducing the resistance is a catalysis-based electroless metal deposition printing method [28].…”
Section: B Inductorsmentioning
confidence: 99%
“…Another effective method of metallic material patterning is through the use of a printed catalyst ink. Catalyst inks, such as the palladium(II) chloride catalyst solution (PdCl 2 ), allow for latent patterning of metals that do not behave efficiently in nanoparticle form, where high oxidation is a detrimental issue [3]. The printed catalyst pattern is exposed to a chemical bath where the metal pattern is electrolessly plated onto the catalyst, offering another low temperature method of inkjet-printing high conductivity metallic patterns.…”
Section: Multilayer Inkjet Printing-conductors and Dielectricsmentioning
confidence: 99%
“…. 1 04 10 7 # h It has to be stressed that a very recent paper [45] reported for the first time the electroless and nonoxidized deposition of copper over the large surface of paper substrate-though the ink-jet printing of an appropriate catalyst with similar performance to the ink-jet-printed silver nanoparticle inks for a drastically reduced cost and a much more environmentally friendly (green) configuration. Also, [46] reported the first flexible multilayer ink-jet-printed capacitors with a self resonant frequency above 3 GHz utilizing two custon formulated polyer-based dielectric inks (SU8 and PVP) with quality factor from 4 + 8.…”
Section: Properties Of Ink-jet-printed Nanoparticlesmentioning
confidence: 99%