Debashish Nayak scite author profile

Many changes have arisen in the world of display technologies as time has passed. In the vast area of display technology, Organic light-emitting diode is a recent and exciting discovery. Organic light-emitting diodes (OLEDs) have received a lot of curiosity among the researcher in recent years as the next generation of lighting and displays due to their numerous advantages, such as superior efficiency, mechanical flexibility and stability, chemical versatility, ease of fabrication, and so on. It works on the theory of electroluminescence, which is a mechanism in which electrical energy converts to light energy. Organic LEDs have a thickness of 100 to 500 nanometers or 200 times that of human hair. In OLEDs, organic material can be used in two or three layers. The emissive layer plays a key role in OLEDs. Polymers are used in the emissive layer to enhance the efficiency of OLEDs at the same time self-luminescence materials are used in OLEDs. In displays, this self-illuminating property removes the need for backlighting. Compared to LEDs and LCDs, OLED displays are smaller, lighter, and more portable.

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Debashish Nayak

A survey of the structure, fabrication, and characterization of advanced organic light emitting diodes

Tuning the optical properties of high quantum-yield g-C3N4 with the inclusion of ZnS via FRET for high electron–hole recombination

Flexible mode of oxidizing action and its impact on the electrochemical performance of the polymeric electrode materials

Investigation of structural, optical and thermal properties of TiO2 reinforced g-C3N4 nanocomposite for emissive layer application

Conducting Polymer-Based Emissive Layer on Efficiency of OLEDs

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