Printed electronics for low-cost electronic systems: Technology status and application development

Printed electronics for low-cost electronic systems: Technology status and application development

In recent years, printing has received substantial interest as a technique for realizing low cost, large area electronic systems. Printing allows the use of purely additive processing, thus lowering process complexity and material usage. Coupled with the use of low-cost substrates such as plastic, m...

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Hauptverfasser: Subramanian, V., Chang, J.B., de la Fuente Vornbrock, A., Huang, D.C., Jagannathan, L., Liao, F., Mattis, B., Molesa, S., Redinger, D.R., Soltman, D., Volkman, S.K., Qintao Zhang
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Additives
Costs
Flat panel displays
Nanoparticles
Nonhomogeneous media
Organic materials
Plastics
Printing
RFID tags
Sensor systems
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creator Subramanian, V.
Chang, J.B.
de la Fuente Vornbrock, A.
Huang, D.C.
Jagannathan, L.
Liao, F.
Mattis, B.
Molesa, S.
Redinger, D.R.
Soltman, D.
Volkman, S.K.
Qintao Zhang
description In recent years, printing has received substantial interest as a technique for realizing low cost, large area electronic systems. Printing allows the use of purely additive processing, thus lowering process complexity and material usage. Coupled with the use of low-cost substrates such as plastic, metal foils, etc., it is expected that printed electronics will enable the realization of a wide range of easily deployable electronic systems, including displays, sensors, and RFID tags. We review our work on the development of technologies and applications for printed electronics. By combining synthetically derived inorganic nanoparticles and organic materials, we have realized a range of printable electronic ldquoinksrdquo, and used these to demonstrate printed passive components, multilayer interconnection, diodes, transistors, memories, batteries, and various types of gas and biosensors. By exploiting the ability of printing to cheaply allow for the integration of diverse functionalities and materials onto the same substrate, therefore, it is possible to realize printed systems that exploit the advantages of printing while working around the disadvantages of the same.
doi_str_mv 10.1109/ESSCIRC.2008.4681785
format Conference Proceeding
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Printing allows the use of purely additive processing, thus lowering process complexity and material usage. Coupled with the use of low-cost substrates such as plastic, metal foils, etc., it is expected that printed electronics will enable the realization of a wide range of easily deployable electronic systems, including displays, sensors, and RFID tags. We review our work on the development of technologies and applications for printed electronics. By combining synthetically derived inorganic nanoparticles and organic materials, we have realized a range of printable electronic ldquoinksrdquo, and used these to demonstrate printed passive components, multilayer interconnection, diodes, transistors, memories, batteries, and various types of gas and biosensors. By exploiting the ability of printing to cheaply allow for the integration of diverse functionalities and materials onto the same substrate, therefore, it is possible to realize printed systems that exploit the advantages of printing while working around the disadvantages of the same.</abstract><pub>IEEE</pub><doi>10.1109/ESSCIRC.2008.4681785</doi><tpages>8</tpages></addata></record>
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identifier ISSN: 1930-8833
ispartof ESSCIRC 2008 - 34th European Solid-State Circuits Conference, 2008, p.17-24
issn 1930-8833
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Additives
Costs
Flat panel displays
Nanoparticles
Nonhomogeneous media
Organic materials
Plastics
Printing
RFID tags
Sensor systems
title Printed electronics for low-cost electronic systems: Technology status and application development
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