Organic light emitting devices: Comparison
Please note this is a comparison between Version 1 by Ramchandra Pode and Version 3 by Dean Liu.

I am involved in the field of organic light emitting devices since 2002. I also worked as visiting Scientist at Korea Electronics Technology Institute, South Korea in 2003 and 2005 (Brain Pool, KOFST) on OLEDs devices. I am specialized in Organic Light Emitting Diode (OLEDs) devices and displays and acquired enough expertize to conduct the research project on OLEDs. During these years, I have published around 65 research articles in various SCI journals of repute. In addition, I have contributed chapters to two books on OLEDs.

 Organic light emitting diodes (OLEDs) typically include several layers of organic materials sandwiched between conductive thin film electrodes. A flexible OLED is based on a flexible substrate which can be either plastic, metal or flexible glass, flexible electrodes (either metal or alloys of metals or others), and flexible encapsulation. In recent years, great attention has paid to the exploitation of flexible transparent electrodes for applications in wearable electronics, flexible displays, touch panels, and solar cells. 

I am involved in the field of organic light emitting devices since 2002. I also worked as visiting Scientist at Korea Electronics Technology Institute, South Korea in 2003 and 2005 (Brain Pool, KOFST) on OLEDs devices. I am specialized in Organic Light Emitting Diode (OLEDs) devices and displays and acquired enough expertize to conduct the research project on OLEDs. During these years, I have published around 65 research articles in various SCI journals of repute. In addition, I have contributed chapters to two books on OLEDs.

1. OLED Pixel Shrinkage Dependence with Cathode Influenced by Thermal Effect.

Sun-Kap Kwon, Ji-Ho Baek, Hyun-Chul Choi, In-Byoung Kang, Seong Keun Kim, Ramchandra Pode, and Jang Hyuk Kwon. IEEE ELECTRON DEVICE LETTERS, VOL. 39, NO. 10, OCTOBER 2018. 1536- 1539.

2. Efficient micro-cavity top emission OLED with optimized Mg: Ag ratio cathode. Kwon, S.-K., Lee, E.-H. Kim K.-S., Choi H.-C., Park M.J., Kim S.K., Pode R., Kwon J.H., Optics Express, Volume 25, Issue 24, 27 November 2017, Pages 29906-29915.

Book Chapter Contribution:

  1. Applications of Organic and Printed Electronics - A Technology-Enabled Revolution Series: Integrated Circuits and Systems, Cantatore Eugenio (Ed.) 2013, ISBN 978-1-4614-3159-6 DOI 10.1007/978-1-4614-3160-2, (Springer Publication)

Book Chapter -3: High-Performance Organic Light-Emitting Diode Displays, Pages 57-81

Authors: Jang Hyuk Kwon, Ramchandra Pode, Hye Dong Kim and Ho Kyoon Chung

 

  1. Organic Light Emitting Diode - Material, Process and Devices, Seung Hwan Ko (Ed.) 2011, ISBN 978-953-307-273-9 (InTech Open Access Publisher)
  2. Chapter 4: "High Efficiency Red Phosphorescent Organic Light- Emitting Diodes with Simple Structure", pages 101 – 146. Authors: Ramchandra Pode and Jang Hyuk Kwon

 

 

  • Transparent electrode, OLEDs, Flexible OLEDs,
  • OLED liighting,
  • Wearable electronics

I am involved in the field of organic light emitting devices since 2002. I also worked as visiting Scientist at Korea Electronics Technology Institute, South Korea in 2003 and 2005 (Brain Pool, KOFST) on OLEDs devices. I am specialized in Organic Light Emitting Diode (OLEDs) devices and displays and acquired enough expertize to conduct the research project on OLEDs. During these years, I have published around 65 research articles in various SCI journals of repute. In addition, I have contributed chapters to two books on OLEDs.

 Representative Research Articles:

1. OLED Pixel Shrinkage Dependence with Cathode Influenced by Thermal Effect.

Sun-Kap Kwon, Ji-Ho Baek, Hyun-Chul Choi, In-Byoung Kang, Seong Keun Kim, Ramchandra Pode, and Jang Hyuk Kwon. IEEE ELECTRON DEVICE LETTERS, VOL. 39, NO. 10, OCTOBER 2018. 1536- 1539.

2. Efficient micro-cavity top emission OLED with optimized Mg: Ag ratio cathode. Kwon, S.-K., Lee, E.-H. Kim K.-S., Choi H.-C., Park M.J., Kim S.K., Pode R., Kwon J.H., Optics Express, Volume 25, Issue 24, 27 November 2017, Pages 29906-29915.

3. Ideal host and guest system in phosphorescent OLEDs

Organic Electronics: physics, materials, applications 10(2), pp. 240-246 (2009)

4. Transparent conducting metal electrode for top emission organic light-emitting devices: Ca-Ag double layer

Pode, R.B., Lee, C.J., Moon, D.G., Han, J.I. Applied Physics Letters 84(23), pp. 4614-4616 (2004)

5. Optical spectroscopy of tris(8-hydroxyquinoline) aluminium thin films

Baldacchini, G., Gagliardi, S., Montereali, R.M., Pace, A., Pode, R.B. Philosophical Magazine B: 82(6), pp. 669-680 (2002)

 Book Chapter Contribution:

Applications of Organic and Printed Electronics - A Technology-Enabled Revolution Series: Integrated Circuits and Systems, Cantatore Eugenio (Ed.) 2013, ISBN 978-1-4614-3159-6 DOI 10.1007/978-1-4614-3160-2, (Springer Publication)

  1. Applications of Organic and Printed Electronics - A Technology-Enabled Revolution Series: Integrated Circuits and Systems, Cantatore Eugenio (Ed.) 2013, ISBN 978-1-4614-3159-6 DOI 10.1007/978-1-4614-3160-2, (Springer Publication)

      Book Chapter -3: High-Performance Organic Light-Emitting Diode Displays, Pages 57-81.  Authors:  

     Jang Hyuk Kwon, Ramchandra Pode, Hye Dong Kim and Ho Kyoon Chung

 2. Organic Light Emitting Diode - Material, Process and Devices, Seung Hwan Ko (Ed.) 2011, ISBN 978-953-    307-273-9 (InTech Open Access Publisher)  Chapter 4: "High Efficiency Red Phosphorescent Organic  Light- Emitting Diodes with Simple Structure",    pages 101 – 146. Authors: Ramchandra Pode and Jang Hyuk Kwon