Inkjet catalyst printing and electroless copper deposition for low-cost patterned microwave passive devices on paper

Cook, Benjamin S.; Fang, Yihai; Kim, Sangkil; Le, Taoran; Goodwin, W. Brandon; Sandhage, Kenneth H.; Tentzeris, Manos M.

doi:10.1007/s13391-013-3027-0

Cited by 52 publications

(37 citation statements)

References 35 publications

(47 reference 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%

Fully Inkjet Printed RF Inductors and Capacitors Using Polymer Dielectric and Silver Conductive Ink With Through Vias

McKerricher

Perez

Shamim

2015

IEEE Trans. Electron Devices

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In this paper, fully inkjet printed multilayer capacitors and inductors are fabricated and characterized using poly 4-vinylphenol (PVP) ink as the dielectric layer and silver nanoparticle ink as the conductor. Inkjet printed through vias, created with a novel dissolving method are used to make RF structures in a multilayer inkjet printing process. The vias have been realized in a 350-nm PVP film and exhibit resistance better than 0.1 . Spiral inductors from 10 to 75 nH have been realized with maximum quality factors around five. The 10-nH inductor exhibits a self-resonant frequency slightly below 1 GHz. Metal-insulator-metal capacitors are realized with densities of 50 pF/mm 2 . These capacitors demonstrate values ranging from 16 to 50 pF. The 16-pF capacitor shows a self-resonant frequency over 1.5 GHz. The successful implementation of inductors and capacitors in an all inkjet printed multilayer process with vias is an important step toward fully inkjet-printed large area and flexible RF systems.

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Section: B Inductorsmentioning

confidence: 99%

Fully Inkjet Printed RF Inductors and Capacitors Using Polymer Dielectric and Silver Conductive Ink With Through Vias

McKerricher

Perez

Shamim

2015

IEEE Trans. Electron Devices

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“…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%

Inkjet‐Printed Smart Skins and Wirelessly‐Powered Sensors for Wearable Applications

Kimionis

Tentzeris

2016

Electromagnetics of Body Area Networks

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“…. 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%

No Battery Required: Perpetual RFID-Enabled Wireless Sensors for Cognitive Intelligence Applications

et al. 2013

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No Battery RequiredO ver the last decade, radio frequency identification (RFID) systems have been increasingly used for identification and object tracking due to their low-power, low-cost wireless features. In addition, the explosive demand for ubiquitous rugged low-power, compact wireless sensors for Internet-of-Things, ambient intelligence, and biomonitoring/quality-of-life application has sparked a plethora of research efforts to integrate sensors with an RFID-enabled platform. The rapid evolution of large-area electronics printing technologies (e.g., ink-jet printing and gravure printing) has enhanced the development of low-cost RFID-enabled sensors as well as accelerated their large-scale deployment. This article presents a

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Inkjet catalyst printing and electroless copper deposition for low-cost patterned microwave passive devices on paper

Cited by 52 publications

References 35 publications

Fully Inkjet Printed RF Inductors and Capacitors Using Polymer Dielectric and Silver Conductive Ink With Through Vias

Fully Inkjet Printed RF Inductors and Capacitors Using Polymer Dielectric and Silver Conductive Ink With Through Vias

Inkjet‐Printed Smart Skins and Wirelessly‐Powered Sensors for Wearable Applications

No Battery Required: Perpetual RFID-Enabled Wireless Sensors for Cognitive Intelligence Applications

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