intro_oled
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| intro_oled [2026/04/02 09:42] – [AMOLED (Active-Matrix OLED)] sophie | intro_oled [2026/04/02 16:12] (current) – [physics behind OLEDs] sophie | ||
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| - | # OLED (Organic Light Emitting Diode) | + | # OLED (Organic Light Emitting Diode) |
| + | ## physics behind OLEDs | ||
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| + | OLEDs are emitting light thanks to the electron-hole recombination principle. | ||
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| + | OLEDs are made of: | ||
| + | * an organic emissive layer in which electron and hole recombine: electrons being excited by an electrical field unexcite themselves by emitting a photon | ||
| + | * (optional: only for multilayer OLEDs) a hole transport and electron transport layer above and below the emissive layer, respectively: | ||
| + | * (optional: only for multilayer OLEDs) a hole injection layer to improve the movement of hole from the anode towards the hole transport layer | ||
| + | * two electrodes: an anode under the hole injection layer and a cathode on top of the electron transport layer | ||
| + | * a subtrate - usually glass - under the anode | ||
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| + | {{: | ||
| + | s | ||
| ## Types of rigidity: flexible vs. rigid OLED screens | ## Types of rigidity: flexible vs. rigid OLED screens | ||
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| ### AMOLED (Active-Matrix OLED) | ### AMOLED (Active-Matrix OLED) | ||
| AMOLEDs include complete layers of cathode, organic components and anode. The layers of anode consist of TFT (thin film transistors) in parallel to form a matrix, which helps in switching each pixel to its on or off state as required hence, forming an image. When the pixels are not needed, they turn off or a black image on display occurs. This is least power consuming type and has quick refresh rates. They are best used in computer monitors, electronic signs or big TV screens. | AMOLEDs include complete layers of cathode, organic components and anode. The layers of anode consist of TFT (thin film transistors) in parallel to form a matrix, which helps in switching each pixel to its on or off state as required hence, forming an image. When the pixels are not needed, they turn off or a black image on display occurs. This is least power consuming type and has quick refresh rates. They are best used in computer monitors, electronic signs or big TV screens. | ||
| - | (([Q. Liu and T. Zhang, ‘Comparison between AMOLED and Traditional Display Technology and Application of AMOLED’, SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 1018–1021, | + | (([Q. Liu and T. Zhang, ‘Comparison between AMOLED and Traditional Display Technology and Application of AMOLED’, SID Symp. Dig. Tech. Pap., vol. 53, no. S1, pp. 1018–1021, |
| - | ) | + | |
| ### PMOLED (Passive-Matrix OLED) | ### PMOLED (Passive-Matrix OLED) | ||
| + | |||
| Passive matrix organic light emitting display is restricted to its passive driving method, so it is hard to make the screen size and resolution larger because the brightness is reduced with the row numbers and it needs a driver Integrated Circuit (IC) with high current supply. In order to make high resolution and large size Organic Light Emitting Display (OLED), companies invest much money to produce Active Matrix Organic Light Emitting Display (AMOLED). But compared with AMOLED, Passive Matrix Organic Light Emitting Display (PMOLED) has simple fabrication process, which does not need very complex Thin Film Transistor (TFT) backplane and also has less material cost. | Passive matrix organic light emitting display is restricted to its passive driving method, so it is hard to make the screen size and resolution larger because the brightness is reduced with the row numbers and it needs a driver Integrated Circuit (IC) with high current supply. In order to make high resolution and large size Organic Light Emitting Display (OLED), companies invest much money to produce Active Matrix Organic Light Emitting Display (AMOLED). But compared with AMOLED, Passive Matrix Organic Light Emitting Display (PMOLED) has simple fabrication process, which does not need very complex Thin Film Transistor (TFT) backplane and also has less material cost. | ||
| They are limited in size and resolution. They have wide applications in MP3 player, cell phones displays. | They are limited in size and resolution. They have wide applications in MP3 player, cell phones displays. | ||
| - | ((Nikhil Sain and Deepesh Sharma, Priya Choudhary, ‘A Review Paper On: Organic Light-Emitting Diode (Oled) Technology and Applications’, | + | (([Nikhil Sain and Deepesh Sharma, Priya Choudhary, ‘A Review Paper On: Organic Light-Emitting Diode (Oled) Technology and Applications’, |
| ## Type of emission colour | ## Type of emission colour | ||
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| ### blue OLED with colour converting materials | ### blue OLED with colour converting materials | ||
| ## Type of stack structures: top vs. bottom emission | ## Type of stack structures: top vs. bottom emission | ||
| - | |||
| ### top emission OLED | ### top emission OLED | ||
| * most used technology because less constraints on materials (no need for backplane to be transparent) | * most used technology because less constraints on materials (no need for backplane to be transparent) | ||
| * cathode must be transparent (Ag material) | * cathode must be transparent (Ag material) | ||
| - | {{ : | + | {{ : |
| - | } | + | |
| ### bottom emission OLED | ### bottom emission OLED | ||
| * this technology emerged first, | * this technology emerged first, | ||
intro_oled.1775115740.txt.gz · Last modified: by sophie