Stacked, or tandem, OLED architecture involves integrating multiple OLED emission units vertically within a display panel, rather than just one as in traditional OLEDs. By stacking these layers, each can contribute to the overall light output, enabling higher brightness and efficiency – and also longer lifetime as each OLED device is driven at a lower current. Technically, a tandem device includes exactly 2 layers, but this term is now loosely used to describe any stacked OLED.
Standard RGB OLED stack, vs Tandem RGB stack (source: Excyton)
The stacked OLED structure is particularly valuable for applications where high brightness (including in HDR scenarios), efficiency (although this is not dramatic) and durability are essential – mostly IT devices (laptops and tablets), microdisplays and automotive displays. OLED TV panel makers have also adopted stacked architectures, but for slightly different reasons (which we will discuss below). Companies are developing novel stacked based architectures. In this article, we discuss:
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