期刊
MOLECULES
卷 26, 期 24, 页码 -出版社
MDPI
DOI: 10.3390/molecules26247558
关键词
phenoxazine; amorphous layer; efficiency; host derivative; light emitting diode
资金
- Ministry of Science and Technology, Taiwan [MOST 103-2923-E-007-003-MY3]
- TLL project [108-2923-M-007 -002-MY3]
- Lithuanian Research Council and Taiwan MOST [S-LLT-19-2]
The newly developed low color temperature candlelight organic LED device is human and environmentally friendly, mimicking candlelight without harmful blue emission. Compared to traditional lighting devices, it has better design and performance, with less impact on the human circadian rhythm.
Low color temperature candlelight organic light-emitting diodes (LEDs) are human and environmentally friendly because of the absence of blue emission that might suppress at night the secretion of melatonin and damage retina upon long exposure. Herein, we demonstrated a lighting device incorporating a phenoxazine-based host material, 3,3-bis(phenoxazin-10-ylmethyl)oxetane (BPMO), with the use of orange-red and yellow phosphorescent dyes to mimic candlelight. The resultant BPMO-based simple structured candlelight organic LED device permitted a maximum exposure limit of 57,700 s, much longer than did a candle (2750 s) or an incandescent bulb (1100 s) at 100 lx. The resulting device showed a color temperature of 1690 K, which is significantly much lower than that of oil lamps (1800 K), candles (1900 K), or incandescent bulbs (2500 K). The device showed a melatonin suppression sensitivity of 1.33%, upon exposure for 1.5 h at night, which is 66% and 88% less than the candle and incandescent bulb, respectively. Its maximum power efficacy is 23.1 lm/W, current efficacy 22.4 cd/A, and external quantum efficiency 10.2%, all much higher than the CBP-based devices. These results encourage a scalable synthesis of novel host materials to design and manufacture high-efficiency candlelight organic LEDs.
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