Electron Transport Properties of Zn(phen)q Compared with Alq<sub>3</sub>in OLED

Kim, Byoung-Sang; Kim, Dong-Eun; Choi, Gyu-Chae; Park, Jun‐Woo; Lee, Burm−Jong; Kwon, Young−Soo

doi:10.5370/jeet.2009.4.3.418

Cited by 20 publications

(3 citation statements)

References 14 publications

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“…31 Hence, 6a and 6b should also be suitable to act as the hole-transporting layer in such fabricated devices. However, emission from the Alq 3 layer was only observed in 6a, which indicates that 6a, containing triphenylamine substituent with greater electron-donating capacity, was simultaneously acting as a hole-transporting layer and an emitting layer.…”

Section: Resultsmentioning

confidence: 99%

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

Jang

Song

Park

et al. 2013

Journal of Chemical Research

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Styryl-substituted derivatives of 2,3-dicyanopyrazine were designed and synthesised by the Knoevenagel condensation of 2,3-dicyano-5-methylpyrazines with 4-(diphenylamino)benzaldehyde for use as red-emitting fluorescent dyes in organic light-emitting devices. Structural analysis of the red-emitting styryl fluorescent dyes was carried out using 1 H NMR, FT-IR, and elemental analysis. The electroluminescent performance of multi-layered organic light-emitting devices fabricated with the triphenylamine-substituted dicyanopyrazine compound as the emitting layer achieved a current efficiency of 1.57 cd A −1 in the green region with CIE coordinates of (0.37, 0.51). However, the green emission (525 nm) observed from the tris-(8-hydroxyquinolinato)aluminum(III) (Alq 3 ) electron-transport layer indicated the action of a recombination phenomenon between the emitting layer and the Alq 3 electron-transport layer. The device fabricated with the tert-butylphenyl-substituted compound achieved a current efficiency of 0.238 cd A −1 in the red region with CIE coordinates of (0.54, 0.42) and showed no recombination phenomenon.

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Section: Resultsmentioning

confidence: 99%

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

Jang

Song

Park

et al. 2013

Journal of Chemical Research

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“…1050 cm −1 is due to the C-O stretching vibration at the C-O-Ti site. 27 The band around 1406 cm −1 is the formation of a chemical bond between the carboxylic group of modifiers and the brφnsted acid site (i.e., Ti-OH) on the TiO 2 surface. The corresponding structures discussed above are shown in Figure 4b.…”

Section: Resultsmentioning

confidence: 99%

De-Colorization Activity Enhancement of Degussa P25 TiO₂via the Formation of p-n Heterojunction by Carboxylic Modification

Hsiao

et al. 2014

J. Electrochem. Soc.

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The visible-light-driven photocatalytic activity of Degussa P25 TiO 2 is effectively promoted by modifiers containing carboxylic groups through impregnating cyclohexanol and a low-temperature heating treatment. The superficial TiO 2 modified with the organic modifiers creates certain low band-gap states to enhance its visible-light activity. The carboxylic-modified TiO 2 dispersed on the P25 surface shows the p-type semiconductor characteristics, confirmed by the photocurrent responses under the open-circuit state and blue-light irradiation. Accordingly, a p-n heterojunction between the superficial modified TiO 2 and underneath P25 enhances the separation of photo-excited electron/hole pairs, resulting in the higher photocatalytic activity. During the photo-electrocatalytic de-colorization test, the photo-excited electrons are further withdrawn by the positive potential bias toward the graphite cathode through the electric circuit, which favors the oxygen reduction reaction (ORR) of two-electron transfer to effectively generates H 2 O 2 for organic pollutants decomposition. Therefore, methylene blue (MB) can be efficiently de-colorized on the carboxylic-modified P25 under the visible-light irradiation meanwhile the de-colorization rate is enhanced under the photo-electrocatalytic mode.

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“…However, the presentation of the second metal ion in the main matrix enhances the film's intensity to oxygen that can control electrical properties. [5] Conventional a-Si is inappropriate for large-area ultra-definition (UD) and 3-dimensional (3D) displays, due to low field effect mobility, and it hardly adapts large size display. In the past decade, AOSs have made tremendous improvement in display industry.…”

Section: Introductionmentioning

confidence: 99%

Temperature Dependence of SiInZnO Thin Film Transistor Fabricated by Solution Process

Lee¹,

Kang²,

Han³

et al. 2015

Transactions on Electrical and Electronic Materials

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Electron Transport Properties of Zn(phen)q Compared with Alq₃in OLED

Cited by 20 publications

References 14 publications

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

De-Colorization Activity Enhancement of Degussa P25 TiO₂via the Formation of p-n Heterojunction by Carboxylic Modification

Temperature Dependence of SiInZnO Thin Film Transistor Fabricated by Solution Process

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Electron Transport Properties of Zn(phen)q Compared with Alq3in OLED

Cited by 20 publications

References 14 publications

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

Red-emitting Materials Derived from 2,3-dicyanopyrazine for Organic Light Emitting Devices

De-Colorization Activity Enhancement of Degussa P25 TiO2via the Formation of p-n Heterojunction by Carboxylic Modification

Temperature Dependence of SiInZnO Thin Film Transistor Fabricated by Solution Process

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Electron Transport Properties of Zn(phen)q Compared with Alq₃in OLED

De-Colorization Activity Enhancement of Degussa P25 TiO₂via the Formation of p-n Heterojunction by Carboxylic Modification