Your search keyword '"Xie, Zhiyuan"' showing total 15 results

1. Organic single-quantum-well electroluminescent device

Author

Huang, Jingsong, Xie, Zhiyuan, Yang, Kaixia, Li, Chuannan, Liu, Shiyong, Wu, Fang, Tian, Wenjing, and Shen, Jiacong

Published

2000

2. Highly efficient and bright doped organic electroluminescent diodes using an aluminum electrode

Author

Huang, Jingsong, Xie, Zhiyuan, Yang, Kaixia, Li, Chuannan, Liu, Shiyong, Li, Yanqin, Wang, Yue, and Shen, Jiacong

Published

1999

3. Efficient multilayer white polymer light-emitting diodes with aluminum cathodes.

Author

Niu, Xiaodi, Qin, Chuanjiang, Zhang, Baohua, Yang, Junwei, Xie, Zhiyuan, Cheng, Yanxiang, and Wang, Lixiang

Subjects

POLYMERS, LIGHT emitting diodes, ALUMINUM electrodes, ELECTROLUMINESCENCE, MACROMOLECULES, CATHODE rays

Abstract

Efficient multilayer white polymer light-emitting diodes (WPLEDs) with aluminum cathodes are fabricated. The multilayer structure is composed of a water soluble hole-injection layer, a toluene-soluble emissive layer, and an alcohol-soluble emissive layer. The polarity difference of the solvents used for spin coating these polymers allows for realization of the multilayer polymer structure. The recombination zone confined at the interface of the two emissive polymers avoids exciton quenching by electrodes, and white emission is realized by harvesting photons emitted from the two emissive polymers. A maximum luminous efficiency of 16.9 cd/A and a power efficiency of 11.1 lm/W are achieved for this WPLED. [ABSTRACT FROM AUTHOR]

Published

2007

4. Efficient blue electroluminescence from neutral alcohol-soluble polyfluorenes with aluminum cathode.

Author

Zhou, Gang, Geng, Yanhou, Cheng, Yanxiang, Xie, Zhiyuan, Wang, Lixiang, Jing, Xiabin, and Wang, Fosong

Subjects

ALUMINUM electrodes, ELECTROLUMINESCENCE, LIGHT emitting diodes, LUMINOUS blue variables, CATHODE ray tubes, CARBAZOLE, ELECTRON work function

Abstract

Efficient blue polymer light-emitting diodes (PLEDs) have been fabricated with a neutral alcohol-soluble polyfluorene, i.e., poly(9,9-bis(6′-diethoxylphosphorylhexyl)fluorene) (PF-EP), as the emitting layer, high work-function Al as the cathode, and poly(vinyl carbazole) as the hole-transporting layer. The PLEDs display a maximum luminous efficiency of 4.0 cd/A and the luminous efficiency >2.4 cd/A in a wide range of current densities. It is found that the promising performance of the devices is attributed to the fact that the PF-EP is not only an efficient blue light-emitting polymer, but it also can facilitate efficient electron injection at the Al/PF-EP interface. [ABSTRACT FROM AUTHOR]

Published

2006

5. Morphology-dependent electroluminescence in poly(N-vinyl carbazole)-based multi-component single emissive layer polymer light-emitting diodes

Author

Liu, Lihui, Zhang, Baohua, Xie, Zhiyuan, Ding, Junqiao, and Wang, Lixiang

Subjects

*ELECTROLUMINESCENCE, *CARBAZOLE, *POLYMER light emitting diodes, *ENERGY levels (Quantum mechanics), *TRANSMISSION electron microscopy, *BENZENE

Abstract

Abstract: We investigate the electroluminescent performance of single-layer polymer light-emitting diodes with the emissive layer comprised of poly(N-vinyl carbazole) (PVK): electron-transporting molecules (ETMs):iridium(III) [bis(4,6-difluorophenyl)-pyridinato-N,C2]-picolinate (FIrpic) trinary components. A series of ETMs with comparable energy levels is tentatively utilized to modulate the morphology. The morphology of the emissive layer is studied using the transmission electron microscopy and atomic force microscopy in combination with the interfacial energy calculation between these components, with purpose to understand the multi-component miscibility and morphological properties of these emissive layers. It is found that the multi-component miscibility has dramatic influence on the morphology of the multi-component emissive layer and the final electroluminescent performance of the devices. The results reveal that the aggregation of ETMs mainly results in an increase of driving voltages, while the aggregation of FIrpic emitters would lead to the reduction in the luminous efficiencies as a result of their self-quenching effects. The PVK:1,3-bis[(p-tert-butyl)phenyl-1,3,4-oxadiazoyl]benzene (OXD-7): FIrpic blend demonstrates a more uniform morphology resulting in an optimal luminous efficiency of 15cdA−1. [Copyright &y& Elsevier]

Published

2013

6. Managing intramolecular energy transfer in well-defined polyfluorenes grafting one/two orange emissive groups on central or terminal fluorene unit.

Author

Yao, Bing, Zhang, Shuren, Zhan, Hongmei, Xie, Zhiyuan, and Cheng, Yanxiang

Subjects

*POLYFLUORENES, *ENERGY transfer, *ELECTROLUMINESCENT polymers, *MOLECULAR weights, *ABSORPTION spectra, *TOLUENE

Abstract

Abstract Three sets of polyfluorenes grafting one/two orange emissive groups on central or terminal fluorene unit have been synthesized successfully through the catalyst-transfer polymerization. The molecular weights linearly increase with increase in the feed ratios of [monomer]/[catalyst] in a certain molecular weight range. The initiators with bis(2,6-diisopropylphenyl)imidazolin-2-ylidene) (IPr) as the ancillary ligand show better catalytic activity, leading to higher molecular weight of up to 126.3 kDa. All polymers in toluene have the similar absorption spectra to polyfluorene homopolymer, while the weak absorption bands of 420–500 nm are observed only in the polymers with low molecular weight. Photoluminescence spectra display a dominant blue emission from the polyfluorene backbone and a weak orange emission (508–661 nm) from the orange group. The clearly enhanced orange emission in the polymers with low molecular weight is mainly ascribed to the intramolecular Förster energy transfer from the polyfluorene segment to the orange group, which is further confirmed by the electroluminescent behavior of the polymers. Graphical abstract Image 1 Highlights ● Well-defined polyfluorenes grafting one or two orange emissive groups on central or terminal fluorene unit are successfully synthesized through the catalyst-transfer polymerization. ● Intramolecular Fӧrster energy transfer from polyfluorene segment to the orange group is related to the number and position of the orange emissive group chemically located in the polymer chain. ● The warm white emission can be achieved in the high molecular weight polymers containing orange emissive group(s) through the incomplete energy transfer. [ABSTRACT FROM AUTHOR]

Published

2019

7. Effect of molecular weight on photoluminescence and electroluminescence properties of thermally activated delayed fluorescence conjugated polymers.

Author

Wang, Tao, Li, Kuofei, Yao, Bing, Chen, Yuannan, Zhan, Hongmei, Xie, Guohua, Xie, Zhiyuan, and Cheng, Yanxiang

Subjects

*DELAYED fluorescence, *POLYMERS, *MOLECULAR weights, *ELECTROLUMINESCENCE, *PHOTOLUMINESCENCE, *LIGHT emitting diodes

Abstract

• Effect of the polymer M n on the TADF property was explored for the first time. • More compacted stacking and better energy transfer is observed in low M n polymers. • Low M n polymer achieves a record-high maximum EQE of 21.2 % at 628 nm. Thermally activated delayed fluorescence (TADF) polymers have made remarkable progress in solution processed organic light-emitting diodes (OLEDs) due to their superior film-forming stability. However, the effect of some factors such as the molecular weight and end groups on the optoelectronic properties is never explored so far. Herein, a set of the TADF conjugated polymers with the different number-average molecular weights (M n s) of 5.4, 24.8, 41.8 and 146.1 kg/mol are synthesized and their M n effect on the photoluminescence (PL) and electroluminescence (EL) is systematically investigated. The microstructure models of the spin-coated polymer films based on the M n and chain length are proposed for realizing efficient non-doped OLEDs. Low M n produces more compacted polymer chain stacking and smoother film morphology, leading to restricted non-radiative loss and more effective energy transfer. In particular, the polymers with low M n s of 5.4 and 24.8 kg/mol achieve the higher PL quantum yields and more efficient reverse intersystem cross from triplet to singlet excited state, as well as the record external quantum efficiencies of 21.2 % and 18.4 % with the EL emission peaks over 620 nm. In contrast, the PL and EL performances eventually deteriorate with further increasing M n s due to the sparser chain stacking and larger phase separation. The results show that the lower M n s enable the rigid polymers to form perfect amorphous films and render the luminescent unit more uniform distribution, similar to the classical doped systems, improving the EL behaviors of the polymers. [ABSTRACT FROM AUTHOR]

Published

2023

8. Binary solvent mixture-induced crystallization enhancement for a white emissive polyfluorene copolymer toward improving its electroluminescence.

Author

Liu, Lihui, Wu, Keqi, Ding, Junqiao, Zhang, Baohua, and Xie, Zhiyuan

Subjects

*BINARY mixtures, *SOLVENTS, *CRYSTALLIZATION, *POLYFLUORENES, *COPOLYMERS, *ELECTROLUMINESCENCE, *FLUORESCENT polymers, *CRYSTAL morphology

Abstract

Abstract: The morphology of fluorescent polyfluorene (PF) derivatives has strong effects on their electroluminescent (EL) performance. Herein, the influence of processing solvents on the morphology of PF-based white emissive polymer and its correlation to the EL behavior is studied. It is found that the PF copolymer films prepared from chlorobenzene:toluene (CB:TOL) solvent mixtures show stronger tendency to form crystalline α phase PF upon thermal annealing than those prepared from pure TOL or CB solvents. The evaporation rate difference in solvent mixtures can assist in the formation of crystal nucleus and enhance the crystallinity of PF backbone after thermal annealing. The results also reveal that the solvent mixture-processed fluorescent PF-based white emissive polymer not only shows more efficient blue emission, but also more balanced electron and hole transport. Accordingly, both the white emission purity and the light-emitting efficiency of the light-emitting diodes based on PF-based white emissive polymer are greatly enhanced. [Copyright &y& Elsevier]

Published

2013

9. H2O treatment-induced uniform NiOX interfacial layer boosting brightness and light-emitting efficiency of blue perovskite electroluminescence.

Author

Wang, Hailong, Xu, Yushuai, Chen, Liang, Wu, Jiang, Wang, Qian, Zhang, Baohua, and Xie, Zhiyuan

Subjects

*ELECTROLUMINESCENCE, *PEROVSKITE, *LIGHT emitting diodes, *QUANTUM efficiency, *BLUE light, *ANODES

Abstract

The reported NiO x interfacial layers in blue perovskite light-emitting diodes (PeLEDs) usually require high-temperature annealing and complex interface modification. Herein, we report a kind of uniform NiO x anode interfacial layer induced by H 2 O treatment, which effectively enhances the brightness and light-emitting efficiency of blue PeLEDs simultaneously. Compared to the as-prepared NiO x anode interfacial layer, H 2 O treatment renders uniform and pinhole-free NiO x morphology. The solution-processed perovskite blue emissive layer prepared atop the H 2 O-treated NiO x interfacial layer demonstrates enhanced photoluminescent property and superior morphology with low trap density. The blue PeLEDs employing H 2 O-treated NiO x as anode interfacial layer show a maximum luminance of 9052 cd/m2 and a maximum external quantum efficiency (EQE) of 1.80%, whereas the control device based on the as-prepared NiO x anode interfacial layer merely exhibits a maximum luminance of 3850 cd/m2 and an EQE of 0.88%, leading to about 135% and 104% increase in brightness and efficiency, respectively. The PeLEDs emit pure blue light with emission peak located at 482 nm and demonstrate superior spectral stability under different driving voltages and operating time. [Display omitted] • High-brightness blue PeLEDs were fabricated using NiO x interfacial layer. • H 2 O-treated NiO x interfacial layer induces to form high-quality blue perovskite emissive layer. • The blue PeLEDs attain a maximum luminance of 9052 cd/m2 and a maximum EQE of 1.80%. • The PeLEDs emit stable blue light with emission peak at 482 nm. [ABSTRACT FROM AUTHOR]

Published

2021

10. Direct formation of β phase in polyoctylfluorene thin film via solvent vapor assisted spin-coating method

Author

Yao, Bing, Zhang, Baohua, Ding, Junqiao, Xie, Zhiyuan, Zhang, Jidong, and Wang, Lixiang

Subjects

*FLUORENE, *THIN films, *SOLVENTS, *SPINTRONICS, *ELECTROLUMINESCENCE, *X-ray diffraction

Abstract

Abstract: Polyoctylfluorene thin films were made using novel solvent vapor assisted spin-coating method, which adds solvent into spin-coater and seal it for several minutes before spin-coating to form a solvent vapor atmosphere. The absorption, photoluminescence spectra, electroluminescence spectra and X-ray diffraction patterns demonstrate that β phase directly generate in such thin film while the thin film made by using normal method is amorphous, which means such method combines normal spin-coating and solvent vapor annealing together into one simply and fast process. The brightness and efficiency of related electroluminescence device are also enhanced due to the self-dopant effect. [Copyright &y& Elsevier]

Published

2013

11. The influence of residue aggregation in solution on photoluminescence and electroluminescence of polyoctylfluorene thin film

Author

Chen, Xi, Wan, He, Li, Haidong, Cheng, Fengmei, Nie, Wei, Yao, Bing, Xie, Zhiyuan, Wang, Lixiang, and Zhang, Jidong

Subjects

*CLUSTERING of particles, *SOLUTION (Chemistry), *PHOTOLUMINESCENCE, *ELECTROLUMINESCENCE, *POLYFLUORENES, *ORGANIC thin films, *TOLUENE, *TEMPERATURE effect, *ORGANIC solvents, *ANNEALING of crystals, *THERMAL analysis

Abstract

Abstract: PFO thin films made of toluene solution dissolved for 12, 30 and 80min at 55°C were prepared and then treated by solvent vapor annealing or thermal annealing. Their absorption, photoluminescence, electroluminescence and morphology were characterized. The results show that the thin film made of solution dissolved for short time contains trace β phase PFO that lead to unusual emission. After solvent vapor annealing or thermal annealing, luminescence of such thin film is lower than that made of solution dissolved for long time. The surface morphology shows that such thin film contains large aggregations with size of 120×80nm, which is in line with the light scattering results of 120nm large particles in the solution, indicating the difference of luminescence originate from the residue aggregations. Such aggregations will lead to stronger diffraction peak in the in-plane GIXRD and weaker diffraction peak in the out-of-plane GIXRD, which indicates they have more ordered structure in main chain direction that will hinder the formation of ordered packing of PFO molecular chains in out-of-plane direction. These results demonstrate that the PFO solution needs to be dissolved for enough time to realize repeatment of high quality light-emitting device for actual massive application. [Copyright &y& Elsevier]

Published

2012

12. Effects of nanostructure on optoelectronic properties of β phase polyoctylfluorene thin film

Author

Wan, He, Bai, Shasha, Li, Haidong, Ding, Junqiao, Yao, Bing, Xie, Zhiyuan, Wang, Lixiang, and Zhang, Jidong

Subjects

*NANOSTRUCTURED materials, *OPTOELECTRONICS, *POLYFLUORENES, *ORGANIC thin films, *TOLUENE, *MIXTURES, *PHOTOLUMINESCENCE, *GRAZING incidence, *ELECTROLUMINESCENCE, *ANNEALING of crystals

Abstract

Abstract: β phase polyoctylfluorene thin films were obtained by exposure to toluene vapor for various annealing times or dipping into a THF/methanol mixture. The photoluminescence and electroluminescence of PFO thin films decrease with increasing annealing time. Grazing incident X-ray diffraction of the thin films indicates that more and larger β phase crystallites will be generated in thin film exposed for longer time, which will lead to more defects that reduce photoluminescence and electroluminescence. By analyzing the mechanism of formation of β phase, we assume that the defects mainly come from the formation of out-of-plane crystalline structure. The assumption is confirmed by higher photoluminescence of β phase polyoctylfluorene thin film achieved by dipping into a THF/methanol mixture that has less out-of-plane crystalline structure. [Copyright &y& Elsevier]

Published

2011

13. Two novel triphenylamine-substituted poly(p-phenylenevinylene) derivatives: synthesis, photo- and electroluminescent properties

Author

Lu, Junjian, Shen, Ping, Zhao, Bin, Yao, Bing, Xie, Zhiyuan, Liu, Enhui, and Tan, Songting

Subjects

*AMINES, *ABSORPTION, *PHOTOLUMINESCENCE, *SPECTRUM analysis, *POLYMERS

Abstract

Abstract: Two novel triphenylamine-substituted poly(p-phenylenevinylene) derivatives, P1 and P2, have been successfully synthesized through the Witting–Horner reaction. The structures and properties of the monomers and the resulting polymers were characterized by using 1H NMR, FT-IR, GPC, TGA, UV–vis absorption spectroscopy, cyclic voltammetry (CV) and electroluminescence (EL) spectroscopy. The obtained polymers exhibited good thermal stability and high photoluminescence quantum yield (0.42–0.90). The polymer light-emitting diodes (PLEDs) with the configuration of ITO/PEDOT/polymers/Ca/Al were fabricated. The single-layer device based on P1 and P2 emitted stable blue and yellow light with the turn-on voltage of 4 and 6V, respectively. The maximum luminance of 3003cd/m2 at 10V was obtained for device P2. [Copyright &y& Elsevier]

Published

2008

14. Synthesis, structure and luminescence properties of zinc (II) complexes with terpyridine derivatives as ligands

Author

Chen, Xuegang, Zhou, Quanguo, Cheng, Yanxiang, Geng, Yanhou, Ma, Dongge, Xie, Zhiyuan, and Wang, Lixiang

Subjects

*ZINC, *HEXYLOXYPHENYL decyloxybenzoate, *ORGANIC compounds, *COLLISIONS (Nuclear physics)

Abstract

Abstract: Five zinc (II) complexes (1–5) with 4′-phenyl-2,2′:6′,2″-terpyridine (ptpy) derivatives as ligands have been synthesized and fully characterized. The para-position of phenyl in ptpy is substituted by the group (R), i.e. tert-butyl (t-Bu), hexyloxy (OHex), carbazole-9-yl (Cz), naphthalen-1-yl-phenyl-amine-N-yl (NPA) and diphenyl amine-N-yl (DPA), with different electron-donating ability. With increasing donor ability of the R, the emission color of the complexes in film was modulated from violet (392nm) to reddish orange (604nm). The photoexcited luminescence exhibits significant solvatochromism because the emission of the complexes involves the intra-ligand charge transfer (ILCT) excited state. The electrochemical investigations show that the complexes with stronger electro-donating substituent have lower oxidation potential and then higher HOMO level. The electroluminescence (EL) properties of these zinc (II) complexes were studied with the device structure of ITO/PEDOT/Zn (II) complex: PBD:PMMA/BCP/AlQ/LiF/Al. Complexes 3, 4 and 5 exhibit EL wavelength at 552, 600 and 609nm with maximum current efficiency of 5.28, 2.83 and 2.00 cd/A, respectively. [Copyright &y& Elsevier]

Published

2007

15. Green electroluminescent polyfluorenes containing 1,8-naphthalimide moieties as color tuner

Author

Mei, Chongyu, Tu, Guoli, Zhou, Quanguo, Cheng, Yanxiang, Xie, Zhiyuan, Ma, Dongge, Geng, Yanhou, and Wang, Lixiang

Subjects

*COPOLYMERS, *MOIETIES (Chemistry), *PHOTOLUMINESCENCE, *ELECTROLUMINESCENCE, *ENERGY transfer

Abstract

Abstract: A series of copolymers (CNPFs) containing low-band-gap 1,8-naphthalimide moieties as color tuner was prepared by a Yamamoto coupling reaction of 2,7-dibromo-9,9-dioctylfluorene (DBF) and different amount of 4-(3,6-dibromocarbazol-9-yl)-N-(4′-tert-butyl-phenyl)-1,8-naphthalimide (Br–CN) (0.05–1mol% feed ratio). The light emitting properties of the resulting copolymers showed a heavy dependence on the feed ratio. In photoluminescence (PL) studies, an efficient color tuning through the Förster energy transfer mechanism was revealed from blue to green as the increase of Br–CN content, while in electroluminescence (EL) studies, the color tuning was found to go through a charge trapping mechanism. It was found that by introduction of a very small amount of Br–CN (0.1–0.5mol%) into polyfluorene, the emission color can be tuned from blue to pure green with Commission International de l''Echairage (CIE) coordinates being (0.21, 0.42) and (0.21, 0.48). A green emitting EL single-layer device based on CNPF containing 0.1mol% of Br–CN showed good performances with a low turn-on voltage of 4.2V, a brightness of 9104cd/m2, the maximum luminous efficiency of 2.74cd/A and the maximum power efficiency of 1.51lm/W. To further improve the EL performances through balancing the charge trapping process, a copolymer (BCNPF05) derived from 0.5mol% of a triarylamine-containing 4-{3,6-bis-[4″-(4‴-bromophenyl-p-tolyl-amino)-phenyl]-carbazol-9-yl}-N-(4′-tert-butyl-phenyl)-1,8-naphthalimide (Br–BCN) and 99.5mol% of 2,7-dibromo-9,9-dioctylfluorene was also prepared. As expected, a single layer EL device based on BCNPF05 exhibited better performances with a brightness of 14228cd/m2, the maximum luminous efficiency of 4.53cd/A and the maximum power efficiency of 1.57lm/W. [Copyright &y& Elsevier]

Published

2006