OLED model

Figure 11.4 shows the OLED model used in this Chapter. The model consists of a series resistance and a diode parallel with a capacitor. The capacitor models the total capacitance of the layers, the series resistance models the total resistance of the device and the diode models the rectifying nature of the OLED, the model is based on the... 

G Yu, Fabless Business Models for OLED Products. OLEDS 2004, San Diego, 2004. 

For hole transport, many of the first materials used in OLEDs were originally developed for use in xerography. Various models have been proposed to describe charge transport in such materials [75,76]. One of the most common classes of material used is the arylamines,... 

On a larger scale, self-contained application programs can be driven by each other object linking and embedding/Component Object Model (OLE/COM), UNIX pipes and signals, and Apple events allow this to happen. Communicating components can be written in different languages, and each can execute in its own space. 

COM includes a model for compound documents called OLE (a collection of standard COM interfaces) and includes ActiveX controls, another set of COM interface standards that include outgoing interfaces to permit events to be signaled by a control to its container. ActiveX controls also have properties that are similar to JavaBeans properties. 

In sharp contrast to the unique pattern for the incorporation of carbon monoxide into the 1,6-diyne 63, aldehyde 77 was obtained as the sole product in the rhodium-catalyzed reaction of 1,6-enyne 76 with a molar equivalent of Me2PhSiH under CO (Scheme 6.15, mode 1) [22]. This result can be explained by the stepwise insertion of the acetylenic and vinylic moieties into the Rh-Si bond, the formyl group being generated by the reductive elimination to afford 77. The fact that a formyl group can be introduced to the ole-finic moiety of 76 under mild conditions should be stressed, since enoxysilanes are isolated in the rhodium-catalyzed silylformylation of simple alkenes under forcing conditions. The 1,6-enyne 76 is used as a typical model for Pauson-Khand reactions (Scheme 6.15, mode 2) [23], whereas formation of the corresponding product was completely suppressed in the presence of a hydrosilane. The selective formation of 79 in the absence of CO (Scheme 6.15, mode 3) supports the stepwise insertion of the acetylenic and olefmic moieties in the same molecules into the Rh-Si bond. 

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