COPE Distinguished Lecture

Event Details
  • Date/Time:
    • Tuesday January 29, 2013 - Wednesday January 30, 2013
      10:00 am - 10:59 am
  • Location: MoSE 1201A
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  • Fee(s):
    N/A
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Contact

Sharon Lawrence (404-894-4040) sharon.lawrence@ece.gatech.edu

Summaries

Summary Sentence: Jan Blochwitz-Nimoth, NOVALED AG - Dresden, Germany

Full Summary: Jan Blochwitz-Nimoth, NOVALED AG - Dresden, GermanyNovaled’s conductivity doping technology and materials for Organic Electronic ApplicationsCOPE Distinguished Lecture

Jan Blochwitz-Nimoth, NOVALED AG - Dresden, Germany

Novaled’s conductivity doping technology and materials for Organic Electronic Applications

COPE Distinguished Lecture

The optimization of charge carrier injection and transport is of crucial importance for today’s and future organic electronic applications as Organic light-emitting diodes (OLEDs) and organic photovoltaic devices (OPV). Novaled has established over the last decade the conductivity doping approach as one main method to lower operating voltage and increase power efficiency in OLEDs.

For OLED display applications our work has been focused in the last years on further development of charge carrier transport and doping materials to enhance the crucial blue pixel performance, especially for top emission OLEDs. By the use of the doping technology the performance triangle of Voltage, Efficiency, and Lifetime can be optimized in respect to detailed customer demands.

Another market area for OLEDs is OLED lighting, where a maximum power efficiency is of utmost importance. Since the operating voltage of white PIN-OLEDs is already low at around 3V lately focus was given on further enhancing the out-coupling efficiency of large area flat OLEDs. We developed new organic optical outcoupling enhancement material that can be incorporated in an existing OLED stack without negative impact on device yield. This new material allows scaling of the OLED area and out-coupling effects since it can be deposited by normal large area vacuum coating technologies.

Thirdly such doped charge carrier transport layers can be used in OPV devices, allowing stacking of absorber units and optimizing optical effects inside the OPV stack.

Last but not least doping materials and technology can be used in electronic devices, as organic transistors and diodes.

 

For more information contact Prof. Bernard Kippelen (404-385-5163).

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School of Chemistry and Biochemistry

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Status
  • Created By: Shirley Tomes
  • Workflow Status: Published
  • Created On: Jan 10, 2013 - 10:15am
  • Last Updated: Oct 7, 2016 - 10:01pm