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Volume: 25 | Article ID: art00050_2
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Inkjet Printed MRI Coils and Increased Conductivity Found in Tracks Printed in Embossed Channels
Patrick J. Smith
Dario Mager
Ute Loeffelmann
Jan G. Korvink
  DOI :  10.2352/ISSN.2169-4451.2009.25.1.art00050_2  Published OnlineJanuary 2009
Abstract

Inkjet printing has been used to successfully produce receiver coils for magnetic resonance imaging. The coils together with incorporated in-line capacitors and external tuning and matching capacitors form a resonance circuit at 400 MHz. The coil and the printed capacitors used the flexible polymer, polyimide as both the dielectric and the substrate. The matching of the coils was measured to be −38 dB. The inkjet printed coils were used to take MRI images, which were found to be comparable to those produced by standard printed circuit board techniques. The lefthand picture that can be seen below shows an image of a kiwi fruit taken using the inkjet printed coil. The scheme shows how the coil was constructed. One part was printed on the lower side of the substrate and two parts were print on the upper-side. This led to two in series capacitors, which used the polyimide substrate as the dielectric, being formed in the coil. [1]The second part of the talk will discuss the beneficial effect of hot-embossed substrates on inkjet printed silver tracks. Not only does hot-embossing confer good geometrical control of silver tracks but it has also been found to reduce resistance. A decrease in resistance has been measured for silver tracks that were formed in embossed channels. Comparable tracks that were inkjet printed on untreated substrates are twice as resistive. The graph shown below shows data taken from lines formed on polycarbonate (Bayfol) and in hot-embossed channels that have been formed in the substrate.[2]

Journal Title : NIP & Digital Fabrication Conference
Publisher Name : Society of Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane, Springfield, VA 22151, USA
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 DOI 10.2352/ISSN.2169-4451.2009.25.1.art00050_2
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Patrick J. Smith, Dario Mager, Ute Loeffelmann, Jan G. Korvink, "Inkjet Printed MRI Coils and Increased Conductivity Found in Tracks Printed in Embossed Channelsin Proc. IS&T Int'l Conf. on Digital Printing Technologies and Digital Fabrication (NIP25),  2009,  pp 593 - 593,  https://doi.org/10.2352/ISSN.2169-4451.2009.25.1.art00050_2

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Copyright © Society for Imaging Science and Technology 2009
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NIP & Digital Fabrication Conference
nip digi fabric conf
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Society of Imaging Science and Technology
7003 Kilworth Lane, Springfield, VA 22151, USA
2169-4451(20090101)2009:2L.593;1-
nip_v2009n2/splitsection50.xml
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Articles
Inkjet Printed MRI Coils and Increased Conductivity Found in Tracks Printed in Embossed Channels
SmithPatrick J.
MagerDario
LoeffelmannUte
KorvinkJan G.
01012009
2009
2
593
593
2009
Inkjet printing has been used to successfully produce receiver coils for magnetic resonance imaging. The coils together with incorporated in-line capacitors and external tuning and matching capacitors form a resonance circuit at 400 MHz. The coil and the printed capacitors used the flexible polymer, polyimide as both the dielectric and the substrate. The matching of the coils was measured to be −38 dB. The inkjet printed coils were used to take MRI images, which were found to be comparable to those produced by standard printed circuit board techniques. The lefthand picture that can be seen below shows an image of a kiwi fruit taken using the inkjet printed coil. The scheme shows how the coil was constructed. One part was printed on the lower side of the substrate and two parts were print on the upper-side. This led to two in series capacitors, which used the polyimide substrate as the dielectric, being formed in the coil. [1]The second part of the talk will discuss the beneficial effect of hot-embossed substrates on inkjet printed silver tracks. Not only does hot-embossing confer good geometrical control of silver tracks but it has also been found to reduce resistance. A decrease in resistance has been measured for silver tracks that were formed in embossed channels. Comparable tracks that were inkjet printed on untreated substrates are twice as resistive. The graph shown below shows data taken from lines formed on polycarbonate (Bayfol) and in hot-embossed channels that have been formed in the substrate.[2]