pꃍS@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@

 

Innovation Center for Organic Electronics (INOEL), Yamagata University
1-808-48 Arcadia, Yonezawa, Yamagata 992-0119, Japan@@TELF+81-238-29-0575@@FAXF+81-238-29-0569

Prof. H. Nakada: nakada(at)yz.yamagata-u.ac.jp @@Prof. M. Koden: koden(at)yz.yamagata-u.ac.jp (gath should be changed by @.)

Home (Nakada/Furukawa/Yuki/Koden Group)     Member     Topics     Technology     Publication     Activity     Contact

 

Flexible OLED on ultra-thin glass  

@Home Technology Flexible OLED on ultra-thin glass

Glass substrate has several advantages such as temperature resistance, chemical stability, excellent gas barrier property, excellent surface smoothness, etc.  Glass changes to flexible when the thickness is thin.

The application technologies of ultra-thin glass to flexible organic electronics devices are being developed.

 

Flexible OLED on ultra-thin Glass (2020)

 

R2R fabrication of TCO on ultra-thin glass (2017)

Flexible OLED on ultra-thin glass supported with a protecting film (2017)

 

Flexible OLED lignting panel on ultra-thin glass (2016)

 

Flexible OLED on ultra-thin glass supported with a protecting film (2016)

 

 

References

1)      T. Furukawa, Advanced Materials-2018 (WCAM2018) (2018). [Invited]iChinaj
gSubstrates for Organic Electronics - Ultra-thin Glass, Stainless Steel Foil and High Gas Barrier Plastic Filmh

2)      M. Koden, T. Furukawa, T. Yuki, H. Nakada, the 16th International Symposium on the Science and Technology of lighting (LS16) (2018). [Invited]iUKj
gRoll-to-roll and printing technologies for electrodes of flexible OLED lightingh

3)      T. Furukawa, M. Koden, IEICE Trans. Electron, E100-C, 949-954 (2017).
gNovel roll-to-roll deposition and patterning of ITO on ultra-thin glass for flexible OLEDsh

4)      T. Furukawa, N. Kawamura, T. Noda, Y. Hasegawa, D. Kobayashi, M. Koden, IDWf17, FLX6-2 (2017).
gNovel Roll-to-Roll Fabrication Processes of Transparent Electrodes on Ultra-Thin Glassh

5)      M. Koden, T. Furukawa, T. Yuki, H. Kobayashi, H. Nakada, IDW/ADf16, FLX3-1 (2016).  [Invited]
gSubstrates and Non-ITO Electrodes for Flexible OLEDsh

6)      T. Furukawa, M. Sakakibara, N. Kawamura, M. Koden, IDW/ADf16, FLX3-3 (2016).
gAll-printed non-ITO Transparent Electrodes on Ultra-thin Glass for OLED Lightingh

7)      T. Furukawa, International Workshop on Flexible & Printable Electronics (IWFPE2016) (2016). [Invited] iKoreaj
gFlexible Substrates and Printed Transparent Electrode for OLED Lightingh

8)      T. Furukawa, N. Kawamura, H. Nakada, M. Koden, The International Conference on Flexible and Printed Electronics (ICFPE 2016), O15-6 (2016).
hNovel ITO fabrication processes on ultra-thin glassh

9)      M. Koden, 15th International Symposium on the Science and Technology of Lighting (LS15) (2016). [Invited (Tutorial)]
gSubstrates and non-ITO electrodes for flexible OLED Lightingsh

10)  T. Furukawa, N. Kawamura, M. Sakakibara, M. Koden, International Display Manufacturing Conference (IDMCf15), S4-4 (2015). [Invited]
gPrinted Transparent Electrode for OLED Lighting Devicesh

11)  M. Koden, The Twenty-second International Workshop on Active-matrix Flatpanel Displays and Devices (AM-FPD 15), 2-1 (2015). [Invited]
gFlexible Substrates and Non-ITO Transparent Electrodes for Organic Electronicsh

12)  M. Koden, Seminar of LED & OLED Expo (2015). iKoreaj
gDevelopment in Yamagata University Organic Thin Film Device Consortiumh

13)  M. Koden, H. Kobayashi, T. Moriya, N. Kawamura, T. Furukawa, H. Nakada, IDW'14, FLX6/FMC6-1 (2014). [Invited]
gFlexible Substrates and Alternative Electrodes of ITO for OLED Lightingh

14)  T. Furukawa, K. Mitsugi, H. Itoh, D. Kobayashi, T. Suzuki, H. Kuroiwa, M. Sakakibara, K. Tanaka, N. Kawamura, M. Koden, IDW'14, FLX3-4L (2014).
gPatterned ITO Film by Roll-to-Roll Process on Ultra-thin Glassh

15)  M Koden and H. Nakada, Nanofair 2014 (2014, Dresden).@[Invited] iGermanyj
hFlexible substrate with alternative electrode of ITO for organic electronicsh

16)  M. Koden, SID'14, Seminar (2014). iUSAj
gOLED Devices, Processes, Encapsulation, and Flexible Substratesh

 

 

 

Home (Nakada/Furukawa/Yuki/Koden group)     Member     Topics     Technology     Publication     Activity     Contact

 

Innovation Center for Organic Electronics (INOEL), Yamagata University
1-808-48 Arcadia, Yonezawa, Yamagata 992-0119, Japan@@TELF+81-238-29-0575@@FAXF+81-238-29-0569

Prof. H. Nakada: nakada(at)yz.yamagata-u.ac.jp @@Prof. M. Koden: koden(at)yz.yamagata-u.ac.jp (gath should be changed by @.)