Green Phosphors Based on 9,10-bis((4-((3,7-dimethyloctyl)oxy) phenyl) ethynyl) Anthracene for LED

Ren, Xuefeng; Song, Hai; Xiao, Jing; Yu, Huijuan; Peng, Chifang; Shao, Guang

doi:10.3390/mi10100703

Micromachines

2019

DOI: 10.3390/mi10100703

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Green Phosphors Based on 9,10-bis((4-((3,7-dimethyloctyl)oxy) phenyl) ethynyl) Anthracene for LED

Xuefeng Ren

Hai Song

Jing Xiao

et al.

Abstract: An anthracene aromatic unit was introduced into the phenylethynyl structure by a rigid acetylene linkage at the C-9 and C-10 positions via Sonogashira coupling reactions, resulting in a planar and straight-backbone molecule (9,10-bis((4-((3,7-dimethyloctyl)oxy) phenyl) ethynyl) anthracene) (BPEA). Thermogravimetric analysis demonstrated the good thermal stability of the BPEA. Photoluminescence analysis showed that a suitable expanded π-conjugation in the BPEA made its excitation band extend into the visible re… Show more

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All-organic arrayed photodetectors with fast UVA–UVC response based on self-aligned planar BPEA nanowires

Zhou,

Wang,

et al. 2024

Applied Physics Letters

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Single-crystalline 9,10-bis(phenylethynyl)anthracene (BPEA) nanowires are promising building blocks for all-organic ultraviolet (UV) photodetectors owing to their environmental stability and efficient absorption of UV radiation. However, many of the intrinsic properties of BPEA nanowires become largely smeared when they adopt disordered ensembles. In this study, by exploiting the exceptional graphoepitaxial effect of hydrophobic parallel nanogrooves, self-aligned planar BPEA nanowires with high crystallinity and chemical purity are grown over the entire sapphire surface. They are then integrated in situ to form arrayed photodetectors by direct deposition of metal electrodes. This strategy helps preserve the exceptional properties of single-crystalline BPEA nanowires to improve photoresponse performance, as unwanted structural damage and chemical impurities associated with the demanding post-growth transfer and alignment steps can be eliminated. Under ambient conditions, these photodetectors exhibit fast and sensitive photoresponse to UV radiation in the 200–400 nm range, covering the short-wave UV (UVC), the middle-wave UV (UVB), and the long-wave UV (UVA) bands. The arrayed photodetectors also enable statistical testing and evaluation of their performance, a prerequisite for advancing nanowire devices into real-world applications. Averaging over 81 detectors gives a responsivity of 0.30 A/W, a detectivity of 3.11 × 109 Jones, and a response time of 31.0 ms under 380 nm light at 20.32 mW/cm2 and 20-V bias. The proposed methods for the rational growth of aligned nanowires and scaled-up production of photodetectors represent a substantial advance toward the implementation of UV photodetectors from organic molecules.

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All-organic arrayed photodetectors with fast UVA–UVC response based on self-aligned planar BPEA nanowires

Zhou,

Wang,

et al. 2024

Applied Physics Letters

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Green Phosphors Based on 9,10-bis((4-((3,7-dimethyloctyl)oxy) phenyl) ethynyl) Anthracene for LED

Cited by 1 publication

References 31 publications

All-organic arrayed photodetectors with fast UVA–UVC response based on self-aligned planar BPEA nanowires

All-organic arrayed photodetectors with fast UVA–UVC response based on self-aligned planar BPEA nanowires

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