Searched for: author:"Bouten, P.C.P."
(1 - 5 of 5)
document
Akkerman, H.B. (author), Pendayala, R. (author), Panditha, V.K.P. (author), Salem, A. (author), Shen, J. (author), van de Weijer, P. (author), Bouten, P.C.P. (author), Winter, S.H.P.M. (author), van Diesen-Tempelaars, K. (author), de Haas, G.J.A.J.F. (author), Steudel, S. (author), Huand, C. (author), Lai, M. (author), Huang, Y. (author), Yeh, M. (author), Kronemeijer, A.J. (author), Poodt, P. (author), Gelinck, G. (author)
We present a thin-film dual-layer bottom barrier on PI that is compatible with 350°C backplane processing for OLED displays. We demonstrate OLEDs that survive bending over 0.5 mm radius for 10.000x. Furthermore, we show compatibility of the bottom barrier with the backplane process by fabricating AMOLED displays on GEN1-sized substrates.
conference paper 2018
document
van de Weijer, P. (author), Akkerman, H.B. (author), Bouten, P.C.P. (author), Panditha, P. (author), Klaassen, P.J.M. (author), Salem, A. (author)
Side leakage experiments have been performed on the organic interlayer, so-called organic coating for planarization (OCP), in a hybrid thin-film encapsulation (TFE) stack based on two silicon nitride (SiN) barrier layers that was developed for organic light-emitting diodes (OLED). To measure the side leakage into OCP, a metallic Ca thin-film...
article 2018
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), Unnikrishnan, S. (author), Akkerman, H.B. (author), Michels, J.J. (author), van Mol, T.M.B. (author)
Organic light-emitting diodes degrade rapidly by means of local cathode oxidation when exposed to the ambient atmosphere, resulting in visible non-emissive areas called black spots. High performance inorganic based encapsulations are required to protect the OLED. We have applied a hybrid thin-film encapsulation stack consisting of two inorganic...
article 2017
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
Searched for: author:"Bouten, P.C.P."
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