Gravure Printing of ITO Transparent Electrodes for Applications in Flexible Electronics

Al-Said, Dania; Rebrosova, E.; Joyce, Margaret; Rebros, Marian; Atashbar, Massood Z.; Bazuin, Bradley J.

doi:10.1109/jdt.2012.2191765

Cited by 34 publications

(23 citation statements)

References 20 publications

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“…Kang et al demonstrated that the uniformity of the printed lines might be improved by using small nanoparticles that reduce the formation of pinholes in the printed lines [12]. Although gravure printing process are useful for preparing printed electronics using a variety materials [13,14], few systematic studies have examined the use of gravure printing on transparent conductive materials, which are critical to the fabrication of optoelectronic and other transparent devices [15].…”

Section: Introductionmentioning

confidence: 99%

Patterned silver nanowires using the gravure printing process for flexible applications

2015

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Section: Introductionmentioning

confidence: 99%

Patterned silver nanowires using the gravure printing process for flexible applications

2015

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“…Merilampi et al (2011) examined the possibility of using pad printing for printing RFID systems on flat and convex polymer substrates. Alsaid et al (2012) also dealt with printing on PET films. Lowtemperature processes are suitable for creating printed electronics on polymer substrates.…”

Section: Printed Electronicsmentioning

confidence: 99%

Applications of Printed Materials

Izdebska

2016

Printing on Polymers

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“…As opposed to the subtractive fabrication processes commonly employed in the production of circuits, such as etching, basic electronic components can be fabricated using processes such as screen, gravure, inkjet, and aerosol jet printing among many others [26][27][28][29]. The significance of these techniques is their ability to create circuits directly upon a target substrate.…”

Section: Review Of Printed Electronicsmentioning

confidence: 99%

All-printed smart structures: a viable option?

et al. 2014

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The last two decades have seen evolution of smart materials and structures technologies from theoretical concepts to physical realization in many engineering fields. These include smart sensors and actuators, active damping and vibration control, biomimetics, and structural health monitoring. Recently, additive manufacturing technologies such as 3D printing and printed electronics have received attention as methods to produce 3D objects or electronic components for prototyping or distributed manufacturing purposes. In this paper, the viability of manufacturing all-printed smart structures, with embedded sensors and actuators, will be investigated. To this end, the current 3D printing and printed electronics technologies will be reviewed first. Then, the plausibility of combining these two different additive manufacturing technologies to create all-printed smart structures will be discussed. Potential applications for this type of all-printed smart structures include most of the traditional smart structures where sensors and actuators are embedded or bonded to the structures to measure structural response and cause desired static and dynamic changes in the structure.

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Gravure Printing of ITO Transparent Electrodes for Applications in Flexible Electronics

Cited by 34 publications

References 20 publications

Patterned silver nanowires using the gravure printing process for flexible applications

Patterned silver nanowires using the gravure printing process for flexible applications

Applications of Printed Materials

All-printed smart structures: a viable option?

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