OLED is a self-emissive display that generates its own light. It is composed of a substrate, TFTs, organic layers, and a window. Among these, the organic layers consist of thin films of organic compounds deposited onto the LTPS substrate through a deposition process. They play a key role in emitting light and color on the display screen. The layers are generally divided into the emitting layer, which generates light, and the supporting layers, which support the emission. When an electric current flows through the OLED, electrons and holes move through the organic layers via the cathode and the anode, respectively. They meet and recombine in the emitting layer, and the energy released during this process appears in the form of light. In this process, the supporting layers help electrons and holes move more efficiently into the emitting layer, thereby increasing the overall luminous efficiency. Through this mechanism, light and color are expressed in the display pixels.
OLED is a self-emissive display that generates its own light. It is composed of a substrate, TFTs, organic layers, and a window. Among these, the organic layers consist of thin films of organic compounds deposited onto the LTPS substrate through a deposition process. They play a key role in emitting light and color on the display screen. The layers are generally divided into the emitting layer, which generates light, and the supporting layers, which support the emission. When an electric current flows through the OLED, electrons and holes move through the organic layers via the cathode and the anode, respectively. They meet and recombine in the emitting layer, and the energy released during this process appears in the form of light. In this process, the supporting layers help electrons and holes move more efficiently into the emitting layer, thereby increasing the overall luminous efficiency. Through this mechanism, light and color are expressed in the display pixels.
OLED is a self-emissive display that generates its own light. It is composed of a substrate, TFTs, organic layers, and a window. Among these, the organic layers consist of thin films of organic compounds deposited onto the LTPS substrate through a deposition process. They play a key role in emitting light and color on the display screen. The layers are generally divided into the emitting layer, which generates light, and the supporting layers, which support the emission. When an electric current flows through the OLED, electrons and holes move through the organic layers via the cathode and the anode, respectively. They meet and recombine in the emitting layer, and the energy released during this process appears in the form of light. In this process, the supporting layers help electrons and holes move more efficiently into the emitting layer, thereby increasing the overall luminous efficiency. Through this mechanism, light and color are expressed in the display pixels.
OLED is a self-emissive display that generates its own light. It is composed of a substrate, TFTs, organic layers, and a window. Among these, the organic layers consist of thin films of organic compounds deposited onto the LTPS substrate through a deposition process. They play a key role in emitting light and color on the display screen. The layers are generally divided into the emitting layer, which generates light, and the supporting layers, which support the emission. When an electric current flows through the OLED, electrons and holes move through the organic layers via the cathode and the anode, respectively. They meet and recombine in the emitting layer, and the energy released during this process appears in the form of light. In this process, the supporting layers help electrons and holes move more efficiently into the emitting layer, thereby increasing the overall luminous efficiency. Through this mechanism, light and color are expressed in the display pixels.