Low Cost Inkjet printing System For Organic Electronic
Low Cost Inkjet printing System For Organic Electronic
Low Cost Inkjet printing System For Organic Electronic
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Radio Frequency Identification antennas, sensors,<br />
precise MEMS devices, conductive lines and pads or<br />
transistor electrodes. It is planned to manufacture<br />
organic electronic circuits using this system, OFET<br />
(<strong>Organic</strong> Field Effect Transistor) based logic<br />
structures and OLED / PLED screens. <strong>System</strong> has<br />
now entered the final test stage were its abilities will be<br />
investigated in small scale production line. It is ready<br />
to fabricate elements on semi commercial scale, and<br />
new materials for new applications are being<br />
developed.<br />
References<br />
[1]. M.Sibinski, M.Jakubowska, M.Sloma „Flexible<br />
Temperature Sensors on Fibers” Sensors 2010,<br />
10(9), 7934-7946<br />
[2]. White Paper “OE-A Roadmap for <strong>Organic</strong> and<br />
Printed <strong>Electronic</strong>s”.<strong>Organic</strong> <strong>Electronic</strong><br />
Association, 2009,<br />
[3]. K. Janeczek, A. Młożniak, G. Kozioł, A. Araźna,<br />
M. Jakubowska, P. Bajurko, „Screen printed UHF<br />
antennas on flexible substrates”, Proceeding SPIE<br />
7745, 77451B (2010)<br />
[4]. M.Słoma M., Jakubowska M., Młożniak A.,<br />
„Multiwalled carbon nanotubes deposition in thick<br />
film silver conductor”, Proc. of SPIE Volume<br />
6937, 2007.<br />
[5]. Ptak J., Cież M., Zaraska K., Słoma M.,<br />
Jakubowska M., “A comparison of electrooptical<br />
characteristics of the electroluminescent lamps<br />
with transparent electrodes based on ITO and<br />
CNT”, Large-area <strong>Organic</strong> and Printed <strong>Electronic</strong>s<br />
Convention, June 23-25, 2009<br />
[6]. J. Sitek, K. Futera, K. Janeczek, K. Bukat, W.<br />
Stęplewski, M.Koscielski, M. Jakubowska,<br />
Investigation of inkjet technology forprinted<br />
organic electronics, Elektronika LII Nr 3/2011, s.<br />
112,<br />
[7]. M.M.Mohebi, J.R.G.Evans “A Drop-on-Demand<br />
Ink-Jet Printer for Combinatorial Libraries and<br />
Functionally Graded Ceramics“2002<br />
[8]. H.Wijshoff „The dynamics of the piezo inkjet<br />
printhead operation”, Physics Reports 2010<br />
[9]. Producer datasheet www.Microdrop.de.<br />
[10]. Thorlabs GmbH www.thorlabs.de – Motorized 2”<br />
LNR datasheet.<br />
[11]. Toshiba-Teli Corporation WWW.toshiba-teli.com<br />
prpduces datasheet.<br />
[12]. J Choi, J Yamaguchi, S Morales, Ro Horowitz, Y<br />
Zhao and A Majumdar,“Design and control of a<br />
thermal stabilizing system for a MEMS<br />
optomechanical uncooled infrared imaging camera<br />
“; 2003 Elsevier Science<br />
208<br />
[13]. FLIR SC645 data WWW.flir.com/themrmography<br />
[14]. Nanosilver ink datasheet http://www.amepoxmc.com<br />
Authors:<br />
Konrad FUTERA 1,2<br />
1Instytut Tele- i Radiotechniczny<br />
ul. Ratuszowa 11, 03-450<br />
Warszawa, 22 619 22 41,<br />
Konrad.futera@itr.org.pl<br />
2 Institute of Metrology and<br />
Biomedical Engineering<br />
Warsaw University of Technology<br />
ul. Św. Andrzeja Boboli 8, 02-525<br />
Warszawa,<br />
e-mail: k.futera@mchtr.pw.edu.pl
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