Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate
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Žlebič, Č.Živanov, Ljiljana D

Kisić, M.
Blaz, Nelu V.
Menićanin, Aleksandar

Randjelović, Danijela V

Damnjanović, M.
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In this paper, electrical properties of inkjet printed graphene patterns on a PET-based (Novele (TM) IJ-220) substrate are presented. Water-soluble graphene conductive ink (Phene plus I3015) was used. Tested samples were printed with up to 12 layers. Desktop inkjet printer with 2000 dpi resolution was used for printing. After that, structures were sintered at 100 degrees C for 30 minutes. Printed patterns surface topography and profiles were observed using atomic force microscope (AFM) NTEGRA prima (NT-MDT). According to the results of AFM characterization, the thickness of 12 printed layers is similar to 750 nm. Measurements of electrical properties were performed with Hall effect measurement system at 0.37 T. Carrier mobility is 2330 cm(2)/Vs, while the conductivity is 389.11 1/Omega cm. All patterns are printed successfully with uniform structure and they are showing excellent compatibility with flexible PET-based substrate.
Keywords:
Un / Surface topography / Sintering / Printing presses / Printed patterns / Measurements of / Ink jet printers / Hall mobility / Hall effect measurement / Graphene / Conductive ink / Atomic force microscopySource:
Proceedings of the International Spring Seminar on Electronics Technology, 2015, 2015-September, 414-417Publisher:
- IEEE Computer Society
DOI: 10.1109/ISSE.2015.7248032
ISBN: 978-147998860-0
WoS: 000374113000083
Scopus: 2-s2.0-84958172484
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Institut za multidisciplinarna istraživanjaTY - CONF AU - Žlebič, Č. AU - Živanov, Ljiljana D AU - Kisić, M. AU - Blaz, Nelu V. AU - Menićanin, Aleksandar AU - Randjelović, Danijela V AU - Damnjanović, M. PY - 2015 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/923 AB - In this paper, electrical properties of inkjet printed graphene patterns on a PET-based (Novele (TM) IJ-220) substrate are presented. Water-soluble graphene conductive ink (Phene plus I3015) was used. Tested samples were printed with up to 12 layers. Desktop inkjet printer with 2000 dpi resolution was used for printing. After that, structures were sintered at 100 degrees C for 30 minutes. Printed patterns surface topography and profiles were observed using atomic force microscope (AFM) NTEGRA prima (NT-MDT). According to the results of AFM characterization, the thickness of 12 printed layers is similar to 750 nm. Measurements of electrical properties were performed with Hall effect measurement system at 0.37 T. Carrier mobility is 2330 cm(2)/Vs, while the conductivity is 389.11 1/Omega cm. All patterns are printed successfully with uniform structure and they are showing excellent compatibility with flexible PET-based substrate. PB - IEEE Computer Society C3 - Proceedings of the International Spring Seminar on Electronics Technology T1 - Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate EP - 417 SP - 414 VL - 2015-September DO - 10.1109/ISSE.2015.7248032 ER -
@conference{ author = "Žlebič, Č. and Živanov, Ljiljana D and Kisić, M. and Blaz, Nelu V. and Menićanin, Aleksandar and Randjelović, Danijela V and Damnjanović, M.", year = "2015", abstract = "In this paper, electrical properties of inkjet printed graphene patterns on a PET-based (Novele (TM) IJ-220) substrate are presented. Water-soluble graphene conductive ink (Phene plus I3015) was used. Tested samples were printed with up to 12 layers. Desktop inkjet printer with 2000 dpi resolution was used for printing. After that, structures were sintered at 100 degrees C for 30 minutes. Printed patterns surface topography and profiles were observed using atomic force microscope (AFM) NTEGRA prima (NT-MDT). According to the results of AFM characterization, the thickness of 12 printed layers is similar to 750 nm. Measurements of electrical properties were performed with Hall effect measurement system at 0.37 T. Carrier mobility is 2330 cm(2)/Vs, while the conductivity is 389.11 1/Omega cm. All patterns are printed successfully with uniform structure and they are showing excellent compatibility with flexible PET-based substrate.", publisher = "IEEE Computer Society", journal = "Proceedings of the International Spring Seminar on Electronics Technology", title = "Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate", pages = "417-414", volume = "2015-September", doi = "10.1109/ISSE.2015.7248032" }
Žlebič, Č., Živanov, L. D., Kisić, M., Blaz, N. V., Menićanin, A., Randjelović, D. V.,& Damnjanović, M.. (2015). Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate. in Proceedings of the International Spring Seminar on Electronics Technology IEEE Computer Society., 2015-September, 414-417. https://doi.org/10.1109/ISSE.2015.7248032
Žlebič Č, Živanov LD, Kisić M, Blaz NV, Menićanin A, Randjelović DV, Damnjanović M. Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate. in Proceedings of the International Spring Seminar on Electronics Technology. 2015;2015-September:414-417. doi:10.1109/ISSE.2015.7248032 .
Žlebič, Č., Živanov, Ljiljana D, Kisić, M., Blaz, Nelu V., Menićanin, Aleksandar, Randjelović, Danijela V, Damnjanović, M., "Electrical Properties of Inkjet Printed Graphene Patterns on PET-Based Substrate" in Proceedings of the International Spring Seminar on Electronics Technology, 2015-September (2015):414-417, https://doi.org/10.1109/ISSE.2015.7248032 . .