Searched for: author:"de Winter, S.H.P.M."
(1 - 5 of 5)
document
Akkerman, H.B. (author), Pendyala, R.K. (author), Panditha, P. (author), Salem, A. (author), Shen, J. (author), van de Weijer, P. (author), Bouten, P.C.P. (author), de Winter, S.H.P.M. (author), van Diesen-Tempelaars, K. (author), de Haas, G. (author), Steudel, S. (author), Huang, C.Y. (author), Lai, M.H. (author), Huang, Y.Y. (author), Yeh, M.H. (author), Kronemeijer, A.J. (author), Poodt, P. (author), Gelinck, G.H. (author)
We present a thin-film dual-layer bottom barrier on polyimide that is compatible with 350°C backplane processing for organic light-emitting diode displays and that can facilitate foldable active-matrix organic light-emitting diode devices with a bending radius of <2 mm. We demonstrate organic light-emitting diodes that survive bending over 0.5...
article 2018
document
van de Weijer, P. (author), Bouten, P.C.P. (author), Fledderus, H. (author), Janssen, R.R. (author), de Winter, S.H.P.M. (author), Akkerman, H.B. (author)
Local laser ablation of the cathode of OLEDs has been applied to create a population of pinholes of the same size. This enables the direct comparison at different conditions of black spots and grey spots in the emission of OLEDs as a result of water ingress into the device. We confirmed earlier observations on the operational effect of black...
article 2017
document
van de Weijer, P. (author), Lu, K. (author), Janssen, R.R. (author), de Winter, S.H.P.M. (author), Akkerman, H.B. (author)
When organic light-emitting diodes (OLEDs) are exposed to the ambient atmosphere, water penetration through pinholes in the cathode results in the formation of non-emissive areas (black spots) due to local oxidation of the cathode around the pinhole. This degradation effect severely limits the lifetime of OLED devices and requires high...
article 2016
document
Michels, J.J. (author), de Winter, S.H.P.M. (author), Symonds, L.H.G. (author), TNO Industrie en Techniek (author)
We demonstrate that artificial neural network modeling is a viable tool to predict the processing dependence of gravure printed light-emitting polymer layers for flexible OLED lighting applications. The (local) thickness of gravure printed light-emitting polymer (LEP) layers was analyzed using microdensitometry, after which the data was used to...
article 2009
document
Meulenkamp, E.A. (author), van Aar, R. (author), Bastiaansen, J.J.A.M. (author), van den Biggelaar, A.J.M. (author), Börner, H. (author), Brunner, K. (author), Büchel, M. (author), van Dijken, A. (author), Kiggen, N.M.M. (author), Kilitziraki, M. (author), de Kok, M.M. (author), Langeveld, B.M.W. (author), Ligter, M.P.H. (author), Vulto, S.I.E. (author), van de Weijer, P. (author), de Winter, S.H.P.M. (author), TNO Industrie (author)
We present results and a discussion of highly efficient polymer Light-Emitting Diodes (polymer LEDs, PLEDs). The external quantum efficiency in current standard devices reaches up to 2-4% only. We have explored two routes to enhance this value. In the first route, PEDOT/PSS is replaced with a novel anode or hole injection layer. The efficiency...
conference paper 2004
Searched for: author:"de Winter, S.H.P.M."
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