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Deep-blue organic light-emitting diodes based on multi-tert-butyl modified naphthylene
Bin Wei,Hanfei Xu,Ning Zhao,Xicun Gao,Yiteng Ye,Yingnan Wang,Dengli Yao,Xiao-Wen Zhang,Xiujuan Liu 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.102 No.-
Six tert-butyls modified naphthyl derivative (2,6-di-tert-butyl-1,5-bis-(3,5-di-tert-butyl-phenyl)-naphthalene (N(dtb)4) was synthesized and tested for host and guest materials in organic light-emittingdiodes (OLEDs). Blue OLED using N(dtb)4 as a host and an emitter DSA-PH as a guest reaches an efficiencyof 11.52 cd A 1 (maximum external quantum efficiency 7.8 % and maximum power efficiency10.33 lm W 1). In addition, for the OLED with N(dtb)4 being a guest, we find that the concentrations ofN(dtb)4 will also affect the performance of the OLED, among which ADN: 5 wt.% N(dtb)4 has higher efficiency,and the maximum current efficiency, external quantum efficiency (EQE) and power efficiency ofthe device reach 3.75 cd A 1, 3.93 % and 3.36 lm W 1, respectively. We also investigated the pure N(dtb)4-based ultraviolet OLED (UV-OLED), and achieved the maximum EQE of the device is 1.12 %. These resultsindicate that N(dtb)4, a novel synthesized fluorescent organic material, has great potential applications inOLEDs and accordingly advancing lightings and displays.
He, Dan,Wu, Siya,Yan, Liping,Zuo, Jihui,Cheng, Yang,Wang, Hanfei,Liu, Jian,Zhang, Xu,Wu, Mingjiang,Choi, Jong‐,il,Tong, Haibin John WileySons, Ltd 2019 Journal of the Science of Food and Agriculture Vol.99 No.15
<P><B>Abstract</B></P><P><B>BACKGROUND</B></P><P><I>Pyropia yezoensis</I>, rich in porphyran, is a medicine‐edible red alga. In the present study, the physicochemical characteristics, conformational states and antitumor activities of a novel porphyran extracted from the high‐yield algal strain <I>Pyropia yezoensis</I> Chonsoo2 and its two degraded derivatives by gamma irradiation were investigated.</P><P><B>RESULTS</B></P><P><I>Pyropia yezoensis</I> porphyran is a water‐soluble, triple‐helical sulfated hetero‐galactopyranose, named PYP. PYP was degraded by gamma irradiation at 20 kGy and 50 kGy, giving two low molecular weight derivatives comprising PYP‐20 and PYP‐50, respectively. PYP with a higher molecular weight has a solution conformation different from PYP‐20 and PYP‐50. Three porphyrans had no toxicity in normal human liver cells (HL‐7702) and showed antitumor effects on Hep3B, HeLa and MDA‐MB‐231. They had better antitumor against HeLa cells, exhibiting a similar inhibition ratio compared to 5‐fluorouracil, with PYP especially exhibiting a higher inhibition ratio than 5‐fluorouracil. With respect to HeLa cells, the different antitumor activities might be related to porphyran molecular weight and solution conformation. Furthermore, the HeLa cell cycle was blocked in the G2/M phase after PYP treatment, leading to cell proliferation inhibition. The induction of cell cycle arrest was related to the changes in the expression of p21, p53, Cyclin B1 and cyclin‐dependent kinase 1.</P><P><B>CONCLUSION</B></P><P><I>Pyropia yezoensis</I> porphyran, as applied to medicine and functional food, could potentially be used as a non‐toxic natural adjuvant in cancer therapy. © 2019 Society of Chemical Industry</P>