Ralph Paetzold scite author profile

Highly sensitive permeation measurements are crucial for the characterization and development of polymeric substrates for flexible display applications. In particular, organic light-emitting devices require substrates with extremely low permeation rates for water and oxygen. Here we demonstrate a concept for measuring ultralow permeation rates. The amount of oxidative degradation in a thin Ca sensor is monitored by in situ resistance measurements. The benefits of this technique are demonstrated for polyester foils with single- and double-sided barrier coatings. A sensitivity limit is imposed by the quality of the encapsulation. The resulting base line contribution to the water vapor transmission rate of a glass reference is below 10−6 g/m2 day at accelerated test conditions.

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Performance of flexible polymeric light-emitting diodes under bending conditions

Paetzold

Heuser

Henseler

et al. 2003

110

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Organic light-emitting diodes were fabricated on a 125-μm-thick polyethylene terephthalate substrate covered with 100 nm indium tin oxide. The luminance–current–voltage performance and the emission spectrum of the devices are investigated in the bent state under mechanical stress at different bending radii. Down to a curvature of 15 mm, no significant decrease in the device performance is found compared to the relaxed state, as well as to conventional devices on glass substrates.

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Light extraction from OLEDs for lighting applications through light scattering

Bathelt¹,

Buchhauser²,

Gärditz³

et al. 2007

Organic Electronics

116

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Impact of Joule heating on the brightness homogeneity of organic light emitting devices

Gärditz

Winnacker

Schindler

et al. 2007

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Joule heating and its impact on the brightness homogeneity are investigated since the luminance distribution is a key issue in large area organic light emitting diodes. In addition to previous reports, it is also important to consider the device temperature as a main factor for determining the luminance homogeneity. At a luminance of 1000cd∕m2 the active area reaches an average temperature of 40.6°C and a peak of 46.2°C. The increased device temperature is leading to higher local current densities resulting in a reduced brightness homogeneity. Modeling confirms these results and can be used for further device layout optimization.

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High-sensitivity permeation measurements on flexible OLED substrates

Paetzold

Henseler

Heuser

et al. 2004

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Ralph Paetzold

Permeation rate measurements by electrical analysis of calcium corrosion

Performance of flexible polymeric light-emitting diodes under bending conditions

Light extraction from OLEDs for lighting applications through light scattering

Impact of Joule heating on the brightness homogeneity of organic light emitting devices

High-sensitivity permeation measurements on flexible OLED substrates

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