| Authors |
Beresneviciute, Raminta ; Gautam, Prakalp ; Nagar, Mangey Ram ; Krucaite, Gintare ; Tavgeniene, Daiva ; Jou, Jwo-Huei ; Grigalevicius, Saulius |
| Abstract [eng] |
Organic light-emitting diodes (OLEDs) transcend the capabilities of conventional diodes, excelling in performance, durability, and manufacturing processes [1]. Notably, OLEDs offer self-illumination, wide viewing angles, rapid response times, high color contrast, low operating temperatures, exceptional color rendering index (CRI), soft and diffused emission, full-spectrum color reproduction, color tunability, planar design, spectrum tailoring, unbreakable construction, lightweight and thin form factor, flexibility, transparency, ease of molecular design, utilization of sustainable materials, energy-saving characteristics, human and eco-friendliness, and low driving voltages [2]. Organic electroactive materials are extensively synthesized and studied as components of the mentioned devices. Bipolar organic derivatives can be used as materials of emitting layer of OLEDs. In this study, we present new potential emitters containing naphtalimide core as electron acceptor and carbazole or arylcarbazole fragments as electron donors. Some of the new materials demonstrated promising electroluminescent characteristics as emitters in the OLED devices. The structures of compounds are shown in Figure 1. [...]. |
