Your search keyword '"Mao-Kuo Wei"' showing total 49 results

1. Effects of ultraviolet irradiation on the aging of the blends of poly (lactic acid) and poly (methyl methacrylate)

Author

Ming-Hung Tsai, Hao Ouyang, Fuqian Yang, Mao-Kuo Wei, and Sanboh Lee

Subjects

Polymers and Plastics, Organic Chemistry, Materials Chemistry

Published

2022

2. Effects of electron transport layer thickness on light extraction in corrugated OLEDs

Author

Bo-Yen Lin, Yi-Ru Li, Chia-Hsuan Chen, Hao-Chun Hsu, Mao-Kuo Wei, Jiun-Haw Lee, and Tien-Lung Chiu

Subjects

Atomic and Molecular Physics, and Optics

Abstract

This study reported the effects of electron transport layer (ETL) thickness on light extraction in corrugated organic light-emitting diodes (OLEDs) and each layer in OLEDs exhibited a periodical corrugated structure, which was determined by depositing thin films on a glass substrate with a nanoimprinted blazed grating structure. The insight is that light extraction in corrugated OLEDs significantly depends on the ETL thickness. Varying the ETL thickness changed the distribution of carrier recombination and led to exciton formation and optical interference, thereby resulting in different attribution of optical loss modes in OLEDs, which increased or even decreased light extraction and device efficiency. Trapped light extraction from the surface plasmon polariton (SPP) and waveguide (WG) modes was identified by splitting the light into transverse electric and transverse magnetic emissions. Thus, the contributions from the individual SPP and WG modes to the external quantum efficiency (EQE) were distinctly clarified by comparing the experimental results with the theoretical calculations. At the ETL thickness of 115 nm, the corrugated OLED exhibited a significantly enhanced (1.83-fold) EQE compared to the planar one due to the effective extraction of trapped light from the SPP and WG modes. The EQE was enhanced by 0.5%, wherein 0.39% came from the WG mode and 0.11% came from the SPP mode.

Published

2022

3. Room-temperature corrugated indium zinc oxide anode to achieve high-efficiency blue phosphorescent organic light-emitting diodes

Author

Bo-Yen Lin, Tien-Lung Chiu, Tzu-Chan Lin, Chia-Hsun Chen, Jiun-Haw Lee, Jhih-Hao Lin, and Mao-Kuo Wei

Subjects

Organic electronics, Materials science, business.industry, General Chemistry, Substrate (electronics), Condensed Matter Physics, Surface plasmon polariton, Electronic, Optical and Magnetic Materials, Anode, Biomaterials, Materials Chemistry, OLED, Optoelectronics, Quantum efficiency, Electrical and Electronic Engineering, Thin film, business, Phosphorescence

Abstract

A corrugated indium zinc oxide thin film was fabricated on a glass substrate at room temperature for use in a blue phosphorescent organic light-emitting device (OLED) to facilitate device efficiency in term of the external quantum efficiency (EQE) of the device, which increased from 28.77% to 34.33% after the fabrication of the aforementioned layer. Furthermore, a remarkably high EQE of 52.51% was achieved through external light extraction by attaching a hemispheric macrolens on the substrate of the device. Consequently, the efficiency of the developed blue phosphorescent OLED became 1.83 times higher than that of a planar counterpart. Moreover, this finding was verified through theoretical analyses, that indicated the underlying light extraction physics was attributed to the efficient extraction of trapped light from the surface plasmon polariton, waveguide, and substrate modes. (submitted to Organic Electronics).

Published

2021

4. 40-4: Moth-eye Anti-reflection Surface for Sunlight Readable Flexible Displays

Author

Jiun-Haw Lee, Mao-Kuo Wei, I-Chun Cheng, Yi-Hsin Lan, Guanjun Tan, Shin-Tson Wu, and Lung-Han Peng

Subjects

Sunlight, Surface (mathematics), Optics, Materials science, Haze, Nanostructure, business.industry, Flexible display, Reflection (physics), Radius, business, Reflectivity

Abstract

A broadband anti-reflection surface with moth-eye structure for sunlight readable flexible displays is demonstrated. The proposed nanostructure exhibits excellent anti-reflection performance (luminous reflectance 0.23%), low haze (0.95%), great flexibility (curve radius 3H) and self-cleaning characteristics. A numerical model is developed to simulate and optimize the nanostructure. Excellent agreement between simulation and experiment is obtained.

Published

2017

5. Enhanced Heat-Electric Conversion via Photonic-Assisted Radiative Cooling

Author

Ya Xun Lin, Mao Kuo Wei, Jeng Yi Lee, Chu-Hsuan Lin, Sheng Rui Wu, Chih Ming Wang, and Chieh Lun Chi

Subjects

Materials science, Radiative cooling, General Chemical Engineering, Composite number, 02 engineering and technology, Article, lcsh:Chemistry, 03 medical and health sciences, thermoelectric generator (TEG), Thermoelectric effect, Seebeck effect, Radiative transfer, General Materials Science, Absorption (electromagnetic radiation), 030304 developmental biology, 0303 health sciences, Spin coating, business.industry, 021001 nanoscience & nanotechnology, Temperature gradient, Thermoelectric generator, lcsh:QD1-999, radiative cooling, Optoelectronics, 0210 nano-technology, business

Abstract

In this paper, an inorganic polymer composite film is proposed as an effective radiative cooling device. The inherent absorption is enhanced by choosing an appropriately sized SiO2 microsphere with a diameter of 6 μm. The overall absorption at the transparent window of the atmosphere is higher than 90%, as the concentration of SiO2–PMMA composite is 35 wt%. As a result, an effective radiative device is made by a spin coating process. Moreover, the device is stacked on the cold side of a thermoelectric generator chip. It is found that the temperature gradient can be increased via the effective radiative cooling process. An enhanced Seebeck effect is observed, and the corresponding output current can be enhanced 1.67-fold via the photonic-assisted radiative cooling.

Published

2021

6. A replacement for incandescent bulbs: high-efficiency blue-hazard free organic light-emitting diodes

Author

Zhe-Kai He, Jwo-Huei Jou, Hui-Huan Yu, F. C. Tung, Chi-Heng Chiang, and Mao-Kuo Wei

Subjects

Incandescent light bulb, Materials science, business.industry, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Blue emission, 0104 chemical sciences, law.invention, Light source, Optics, law, Materials Chemistry, OLED, Optoelectronics, Compact fluorescent lamp, Candle, 0210 nano-technology, business, Melatonin secretion, Diode

Abstract

A blue-hazard free, healthy light source will become the mainstream of future lighting, wherein higher energy saving is always a must. Although the use of incandescent bulbs is the most friendly electricity-driven lighting measure from the perspectives of the human eye, melatonin generation, artifacts, ecosystems, the environment, and night skies due to their intrinsically low blue emission, they are phasing out because of energy wasting. We hence devise a highly efficient organic light-emitting diode which exhibits a color mimicking that of an incandescent bulb, and a 120 lm W−1 at 100 cd m−2 power efficacy, which is 12 times that of an incandescent bulb or 1000 times that of a candle. This warm sensation giving lighting device is at least 10 times safer from the retinal protection perspective and 4 times better for melatonin secretion, as compared with the cold white counterparts of the compact fluorescent lamp and the light-emitting diode.

Published

2017

7. Antireflection and self-cleaning film with moth-eye-like structure for mobile flexible displays (Conference Presentation)

Author

I-Chun Cheng, Jiun-Haw Lee, Mao-Kuo Wei, Lung-Han Peng, Guanjun Tan, Yi-Hsin Lan, and Shin-Tson Wu

Subjects

Materials science, Liquid-crystal display, Nanostructure, business.industry, law.invention, Display device, Resist, law, Flexible display, Optoelectronics, Contrast ratio, business, Layer (electronics), Diode

Abstract

Ambient contrast ratio (A-CR) is a critically important characteristic for mobile displays. For transmissive and emissive displays (such as liquid crystal display, light-emitting diode, and organic light-emitting diode), A-CR decreases dramatically as the ambient light increases, which degrades the image quality, especially for outdoor applications. Moth-eye-like structure greatly reduces the surface reflection and improves A-CR. For a touch panel display, the surface should be robust enough to resist possible mechanical scratches and to self-clean possible contaminations from fingerprints and dusts. In this paper, we demonstrate the moth-eye-like structure fabricated on a hard-coating layer with additional surface treatment for self-cleaning property upon the flexible film. By laminating the film unto a display device, the luminous reflectance is reduced to ~0.23%, which improves the A-CR by ~4X under the sun. Note that although the surface reflection is reduced, the haze remains negligible, implying that the image quality is not blurred. The nanostructure was fabricated on the hard-coating layer which is typically used as the protective film of the mobile display and hence it is anti-scratched. Typically, nanostructure exhibits hydrophobic and olephobic properties. With suitable surface treatment by amphiphilic molecules, such characteristics are further improved with excellent self-cleaning properties. Besides, our nanostructured hard-coating film can be fabricated on different flexible films, such as TAC and PET, which means this broadband antireflection film can be used for flexible displays.

Published

2018

8. P-167: Efficiency Improvement of an Organic Light Emitting Display with Black Matrix for High Contrast Ratio

Author

Jiun-Haw Lee, Ling Yi Kuo, Mao Kuo Wei, Hsueh Hsing Lu, Yu-Hung Chen, Peng Yu Chen, Hoang Yan Lin, Chun Yu Lee, and Yu-Hsin Lin

Subjects

Brightness, High contrast, Filler (packaging), Materials science, Reflection (mathematics), business.industry, OLED, Optoelectronics, Contrast ratio, business, Layer (electronics), Black matrix

Abstract

In OLED displays, the black matrix (BM) layer is used to eliminate the unwanted ambient-light reflection, but greatly decrease the brightness also. In this paper, the thickness of filler layer in the structure is designed to get more than 50% enhancement in efficiency.

Published

2016

9. Microlens Array Fabrication by 3D Diffuser Lithography for Light Enhancement of Organic Light-Emitting Devices

Author

Hung Yi Lin, Yong Shan Sun, Mao Kuo Wei, and Shih Liang Chen

Subjects

Microlens, Fabrication, Materials science, Polydimethylsiloxane, business.industry, Mechanical Engineering, law.invention, chemistry.chemical_compound, Optics, chemistry, Mechanics of Materials, law, OLED, Optoelectronics, General Materials Science, Photomask, Photolithography, business, Diffuser (optics), Lithography

Abstract

Microlens arrays have been fabricated by 3D diffuser lithography in this study. The method mainly adopts two kinds of diffuser films with different transmittances and hazes, integrated by photolithography, polydimethylsiloxane (PDMS) molding and UV forming techniques, to get microlens arrays with different parameters and geometries. The features, such as height, geometry and fill factor of microlens arrays, are controlled by photolithography, using a photomask with circular holes and different exposure doses. The microlens arrays can also be duplicated and transferred to the surface of flexible polyethylene terephthalate (PET) substrate through PDMS molding and UV forming processes. Finally, the outcoupling efficiency of microlens arrays attached to organic light-emitting devices (OLEDs) can be measured and analyzed. More than 60% enhancement of luminous current efficiency can be obtained in experimental results.

Published

2014

10. Corrugated organic light-emitting diodes to effectively extract internal modes

Author

Tien-Lung Chiu, Xiaofeng He, Chi-Feng Lin, Mao-Kuo Wei, Jiu-Haw Lee, Jiahui Wang, Haowen Liang, Jiangning Wu, and Hao-Chun Hsu

Subjects

Materials science, business.industry, 02 engineering and technology, Substrate (electronics), Grating, 021001 nanoscience & nanotechnology, 01 natural sciences, Surface plasmon polariton, Atomic and Molecular Physics, and Optics, Light scattering, 010309 optics, Optics, 0103 physical sciences, OLED, Quantum efficiency, 0210 nano-technology, business, Diode, Visible spectrum

Abstract

We report a corrugated structure to effectively extract the surface plasmon polaritons (SPP) and waveguiding modes in organic light-emitting diodes (OLEDs). This structure is formed by nano-imprint of blazed gratings. To study the optimum extraction condition in terms of grating pitches, we compare the light extraction efficiency of corrugated OLEDs with three kinds of pitches, showing a 42.00% external quantum efficiency (EQE) enhancement ratio with this internal structure. Due to the transfer of SPP and waveguiding modes into substrate mode, the EQE enhancement ratio can be further pushed to 103.02% by attaching a macrolens. The simulation verifies the experimental results and shows the extraction mechanism of the corrugated structure towards transverse electric (TE) and transverse magnetic (TM) waves. We foresee that this method is able to enhance the optical efficiency of devices for both mass-production OLED lighting and display in a cost-effective way.

Published

2019

11. Blue phosphorescent organic light-emitting diode with triazole host achieving high current efficiency

Author

Nai-Jing Chen, Yi-Hsin Lan, Bo-Yen Lin, Chi-Feng Lin, Yi-Chi Bai, Jiun-Haw Lee, Mao-Kuo Wei, Tien-Lung Chiu, Jau-Jiun Huang, Man-kit Leung, and Chih-Hung Hsiao

Subjects

Materials science, 010405 organic chemistry, business.industry, Flexible organic light-emitting diode, 010402 general chemistry, Photochemistry, 01 natural sciences, Cathode, 0104 chemical sciences, law.invention, law, OLED, Optoelectronics, Phosphorescent organic light-emitting diode, Photonics, Phosphorescence, business, Electrical efficiency, Diode

Abstract

We demonstrated a blue phosphorescent organic light-emitting diode with the maximum current efficiency and power efficiency of 57.4 cd/A and 51.6 lm/W, respectively, based on trizaole derivatives as the host of the emitting layer.

Published

2016

12. Nanoindentation creep in polycarbonate and syndiotactic polystyrene

Author

Mao-Kuo Wei, Julie P. Harmon, Chien-Chao Huang, and Sanboh Lee

Subjects

Materials science, Mechanical Engineering, Stress–strain curve, Modulus, Strain rate, Nanoindentation, Physics::Classical Physics, Condensed Matter Physics, Viscoelasticity, Stress (mechanics), Creep, Mechanics of Materials, Condensed Matter::Superconductivity, Newtonian fluid, General Materials Science, Composite material

Abstract

This study focuses on nanoindentation creep in polycarbonate (PC) and syndiotactic polystyrene (sPS) throughout the transient and steady-state regions. The viscoelastic Burgers model is used to explain transient creep data, while the power-law creep model is used to interpret steady-state creep data. The Newtonian shear viscosity of the Maxwell element and Young’s modulus of the Kelvin element are greater for the creep period than for the preload period, and an opposite trend is noted in the Newtonian shear viscosity of the Kelvin element and Young’s modulus of the Maxwell element. The fact that the Young’s moduli of Maxwell and Kelvin elements in the creep period are different from those in the preload period implies that a stress-induced mesomorphic structure forms or that crystallization occurs in nanoindentation creep. While the strain rate increases with decreasing preload period, the stress exponent factor is almost the same for all preload periods.

Published

2012

13. Dopant effects in phosphorescent white organic light-emitting device with double-emitting layer

Author

Yi-Chi Bai, Mao-Kuo Wei, Chung-Chieh Lee, Yi-Hsin Lan, Pei-Yu Lee, Chih-Chiang Yang, Jiun-Haw Lee, Man-kit Leung, Tien-Lung Chiu, and Chih-Hung Hsiao

Subjects

Organic electronics, Electron mobility, Chemistry, business.industry, Doping, Analytical chemistry, chemistry.chemical_element, General Chemistry, Electroluminescence, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Biomaterials, Materials Chemistry, OLED, Optoelectronics, Quantum efficiency, Iridium, Electrical and Electronic Engineering, Phosphorescence, business

Abstract

In this paper, we investigated the effects of dopants on the electrical and optical characteristics of dichromatic and white organic light-emitting devices (OLEDs) with a double emitting layer (DEML). Such a DEML consisted of two host materials with bipolar transport characteristics doped with two distinct types of phosphorescent emitters. The host for EML1 (adjacent to the anode side) was N,N-dicarbazolyl-3,5-benzene (mCP), with a hole mobility higher than the electron mobility, whereas the host for EML2 (adjacent to the cathode side) was 2,2′-bis[5-phenyl-2-(1,3,4)oxadazolyl]biphenyl (OXD), with a higher electron mobility than the hole mobility. Phosphorescent blue emitters, 9% iridium(III)bis[4,6-di-fluorophenyl-pyridinato-N,C2]picolinate (FIrpic), and phosphorescent green emitters, 9% fac-tris(phenylpyridine) iridium [Ir(ppy)3], were doped into EML1 and EML2, respectively for dichromatic emission. In the dichromatic blue/green OLEDs, both the blue and green dopants helped to reduce the driving voltage. The dopants essentially played the role of carrier traps and recombination centers, from which the current density–voltage characteristics and electroluminescence (EL) spectra were derived. In this structure, EML1 and EML2 exhibited hole- and electron-rich bipolar transporting characteristics, respectively. Hence, the recombination was extended to the two EMLs, which reduced the efficiency roll-off and resulted in high efficiency levels even at high luminance levels. Through further incorporation of 0.5% of tris(2-phenylquinoline)iridium(III) [Ir(2-phq)3] into EML1, a white OLED with maximum current efficiency of 35.8 cd/A and quantum efficiency of 10.73% at 0.643 mA/cm2 was obtained. In this white OLED, the current efficiency decreased slightly by 2.51% from 35.8 cd/A at 230 cd/m2 to 34.9 cd/A at 1000 cd/m2. Carrier confinement was achieved at the D-EML interface, which not only contributed to the high current efficiency, but also resulted in stable color coordinates that varied a mere (−0.014, 0.004) from 100 to 10,000 cd/m2, without additional blocking layers between the two EMLs.

Published

2011

14. Enhancement and Saturation Phenomena on Luminous Current and Power Efficiencies of Organic Light-Emitting Devices by Attaching Microlens Array Films

Author

Yu-Hsuan Ho, Jen-Hui Tsai, Hoang Yan Lin, Yu-Ting Hsiao, Ciao-Ci Lin, Jiun-Haw Lee, Kuan-Yu Chen, Mao-Kuo Wei, and Hung-Yi Lin

Subjects

Microlens, Materials science, business.industry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Blueshift, Luminous flux, Wavelength, Full width at half maximum, Optics, OLED, Optoelectronics, Electrical and Electronic Engineering, business, Refractive index, Saturation (magnetic)

Abstract

Compared to the OLED with planar substrate, the luminous current efficiency and luminous power efficiency of the device are shown 25% and 36% enhancement, respectively, by attaching the microlens array film (MAF) having a fill factor of 0.788 and a height ratio of 0.46. Both the luminous current efficiency and luminous power efficiency of the organic light-emitting device (OLED) increased monotonically with increasing the fill factor of MAFs, regardless of their arrangements. However, the curve-fitting equation of the luminous power efficiency has a negative second-order term, which shows a saturation phenomenon. Based on the experimentally verified configuration, simulation showed that the luminous current and power efficiencies also increase along with increasing height ratio and they were found to have more pronounced saturation phenomena. As for the spectral characteristics, the peak wavelength of the planar OLED spectra got blue-shift and the full-width-at-half-maximum (FWHM) of its spectra decreased with increasing the viewing angles due to the microcavity theories. After MAFs are attached to the OLED, the FWHM of the OLED spectra decreased linearly by increasing the fill factor of the MAFs. We also observe blue shifts at different viewing angles which is the evidence that the waveguiding modes are being extracted. The saturation phenomena of efficiency enhancement imply that high fill factor and large height ratio of MAFs will certainly benefit for efficiency enhancement, however, full factor cases are not always the most desirable. Optimal fill factor and height ratio, which may be less than unity, will gain the best efficiency enhancement, suffer from less color deviation, and make fabrication easier.

Published

2011

15. 28.3: Flexible Substrate with Low Reflection, Low Haze, Self-cleaning, and High Hardness by Nano-structured Hard Coating and Surface Treatment

Author

Tien-Lung Chiu, Bo-Hua Wang, Yi-Hsin Lan, Jiun-Haw Lee, Teng-Yi Yang, I-Chun Cheng, Di-Hong Lin, Chi-Feng Lin, Chung-Kuang Wei, I-Yin Li, Mao-Kuo Wei, Lung-Han Peng, and Yu-Hao Liu

Subjects

Nanostructure, Haze, Materials science, business.industry, technology, industry, and agriculture, engineering.material, Reflectivity, Optics, Coating, Self cleaning, Nano, engineering, Composite material, business, Curing (chemistry)

Abstract

Low reflectance (0.6%), low haze (1.3%), self-cleaning, and high hardness flexible substrate was fabricated in a simple process including imprinting, curing and etching for obtaining nanostructures on the hard coating.

Published

2014

16. Emission Characteristics of Organic Light-Emitting Diodes and Organic Thin-Films with Planar and Corrugated Structures

Author

Jiun-Haw Lee, Hoang Yan Lin, Chih-Chung Yang, Chii-Wann Lin, Yean-Woei Kiang, and Mao-Kuo Wei

Subjects

Materials science, microstructure, Physics::Optics, Substrate (electronics), Review, Flexible organic light-emitting diode, Catalysis, Inorganic Chemistry, lcsh:Chemistry, OLED, Physical and Theoretical Chemistry, Thin film, Organic Chemicals, Molecular Biology, Electrodes, lcsh:QH301-705.5, Spectroscopy, Plasmon, Lighting, business.industry, Organic Chemistry, Tin Compounds, General Medicine, Computer Science Applications, extraction efficiency, lcsh:Biology (General), lcsh:QD1-999, Optoelectronics, Light emission, Light-emitting electrochemical cell, Glass, Lasers, Semiconductor, business, Layer (electronics)

Abstract

In this paper, we review the emission characteristics from organic light-emitting diodes (OLEDs) and organic molecular thin films with planar and corrugated structures. In a planar thin film structure, light emission from OLEDs was strongly influenced by the interference effect. With suitable design of microcavity structure and layer thicknesses adjustment, optical characteristics can be engineered to achieve high optical intensity, suitable emission wavelength, and broad viewing angles. To increase the extraction efficiency from OLEDs and organic thin-films, corrugated structure with micro- and nano-scale were applied. Microstructures can effectively redirects the waveguiding light in the substrate outside the device. For nanostructures, it is also possible to couple out the organic and plasmonic modes, not only the substrate mode.

Published

2010

17. Efficiency improvement and spectral shift of an organic light-emitting device with a square-based microlens array

Author

Chia-Fang Wu, Kuan-Yu Chen, Ciao-Ci Lin, Mao-Kuo Wei, Jiun-Haw Lee, Tung-Chuan Wu, Jen-Hui Tsai, Yu-Hsuan Ho, Hung-Yi Lin, and Hoang Yan Lin

Subjects

Microlens, Materials science, business.industry, Viewing angle, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Blueshift, Luminous flux, Wavelength, Full width at half maximum, Optics, OLED, Optoelectronics, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Chromaticity, business

Abstract

In this paper, we present and analyze the influences of the fill factor and the height ratio of square-based microlens arrays on the optical characteristics of an organic light-emitting device (OLED). These properties include spectral shift, CIE coordinates, viewing-angle dependence, luminous current efficiency and luminous power efficiency. Both the luminous current efficiency and luminous power efficiency of the OLED were found to increase linearly with increasing the fill factor of microlenses. It is also found that the full width at half maximum (FWHM) of the OLED spectra and CIE coordinate decreased linearly with increasing the fill factor of the microlenses. Besides, the efficiency improvement of the OLED increased with the height ratio of attached microlenses. Compared to the OLED, the luminous current efficiency and luminous power efficiency of the device can be enhanced by 42% and 47%, respectively, by attaching the microlens array having a fill factor of 90% and a height ratio of 0.57. We also observed blue shifts at different viewing angles when microlens arrays were attached to the OLED, which is the evidence that the waveguiding modes are being extracted. In our planar OLED, the peak wavelength blue shifted and the FWHM decreased with increasing the viewing angles due to the microcavity effect.

Published

2008

18. Size-controllable synthesis of Bi/Bi2O3 heterojunction nanoparticles using pulsed Nd:YAG laser deposition and metal-semiconductor-heterojunction-assisted photoluminescence

Author

Mao-Kuo Wei, Wan-Ting Gao, Yuan-Ron Ma, Jyun-Bo Liang, Ranjit A. Patil, Ping-Hung Yeh, Yung Liou, and Jin-Han Lin

Subjects

Materials science, Photoluminescence, business.industry, Nanoparticle, Heterojunction, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, 0104 chemical sciences, law.invention, Pulsed laser deposition, law, Nd:YAG laser, Optoelectronics, General Materials Science, 0210 nano-technology, business, Light-emitting diode

Abstract

We synthesized Bi/Bi2O3 heterojunction nanoparticles at various substrate temperatures using the pulsed laser deposition (PLD) technique with a pulsed Nd:YAG laser. The Bi/Bi2O3 heterojunction nanoparticles consisted of Bi nanoparticles and Bi2O3 surface layers. The average diameter of the Bi nanoparticles and the thickness of the Bi2O3 surface layer are linearly proportional to the substrate temperature. The heterojunctions between the Bi nanoparticles and Bi2O3 surface layers, which are the metal–semiconductor heterojunctions, can strongly enhance the photoluminescence (PL) of the Bi/Bi2O3 nanoparticles, because the metallic Bi nanoparticles can provide massive free Fermi-level electrons for the electron transitions in the Bi2O3 surface layers. The enhancement of PL emission at room temperature by metal–semiconductor-heterojunctions make the Bi/Bi2O3 heterojunction nanoparticles potential candidates for use in optoelectronic nanodevices, such as light-emitting diodes (LEDs) and laser diodes (LDs).

Published

2016

19. Micro-Truncated Cone Arrays for Light Extraction of Organic Light-Emitting Diodes

Author

Mao-Kuo Wei, Wei-Chu Sun, and Ben Hsu

Subjects

Materials science, Polydimethylsiloxane, business.industry, Molding (process), Photoresist, Luminance, law.invention, chemistry.chemical_compound, Cone (topology), chemistry, law, OLED, Optoelectronics, Photolithography, business, Diode

Abstract

In this paper, we combined photolithography, polydimethylsiloxane (PDMS) molding, and UV-forming techniques to fabricate micro-truncated cone arrays. The taper angle of micro-truncated cone arrays was adjusted by changing softbake parameters during photography of photoresist. The fill factor of micro-truncated cone arrays was altered by varying the gap distance between two neighboring cones. In addition, the influences of taper angle and fill factor of micro-truncated cone arrays on efficiency improvement and optical properties of a blue light organic light-emitting diode (OLED) were investigated. The optical properties include spectral shift, CIE coordinates, and viewing-angle-dependent luminance. Experimental results showed that the efficiency of the OLED increased with increasing the fill factor, but decreased with the taper angle of micro-truncated cone arrays. The efficiency of the OLED could be increased up to 42% by attaching the micro-truncated cone array having a fill factor and a taper angle of 94% and 72°, respectively.

Published

2016

20. Improvement of the outcoupling efficiency of an organic light-emitting device by attaching microstructured films

Author

Chia-Fang Wu, Ching-Liang Dai, Yu-Hsuan Ho, Mao-Kuo Wei, Jiun-Haw Lee, Hung-Yi Lin, Tung-Chuan Wu, and Hoang Yan Lin

Subjects

Materials science, business.industry, Viewing angle, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Blueshift, Luminous flux, Full width at half maximum, Optics, OLED, Transmittance, Optoelectronics, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Chromaticity, business, Diffuser (optics)

Abstract

In this paper, we present and analyse the optical characteristics, such as spectral shift, CIE coordinates, viewing angle dependence, luminous current efficiency and luminous power efficiency, of an organic light-emitting device (OLED) with a commercial diffuser film or a brightness-enhancement film (BEF) attached. Compared to a planar green OLED, the luminous current efficiencies of the OLED with an attached diffuser film or BEF increase by 29% and 23%, respectively. The overall luminous power efficiencies are enhanced by 28% and 7%. Compared to the planar green device, we observe blue shifts at different viewing angles when microstructured films are attached, which is the evidence that the waveguiding modes are being extracted. In our planar OLED, the peak wavelength blue shifts and the full width at the half maximum (FWHM) decrease with increasing viewing angles due to the microcavity effect. When the diffuser is attached, the spectral peak has a constant blue shift (6 nm) compared to that of the planar OLED. On the other hand, in the BEF case, the spectral shift depends on the viewing angle (2–12 nm blue shifts from 0 to 80°). This is due to the different operating principles (scattering and redirected light) of the diffuser and BEF. Since the transmittance spectra of both the diffuser film and the BEF are flat over the visible range, it is suitable for lighting applications by using white OLED. When attaching the films on a commercial white OLED, the luminous current efficiencies of the OLED with an attached diffuser film or BEF increase by 34% and 31%, respectively. The overall luminous power efficiencies are enhanced by 42% and 8%.

Published

2007

21. P-179: Low Blur Effect and High Light Extraction Efficiency Enhancement of Organic Light Emitting Displays with Novel Microstructure Attachment

Author

Kuan-Yu Chen, Sheng-Chih Hsu, Chung-Yu Lin, Mao-Kuo Wei, Hoang Yan Lin, and Jiun-Haw Lee

Subjects

Materials science, Image quality, business.industry, Extraction (chemistry), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Microstructure, Planar, Light source, Optics, OLED, Optoelectronics, Contrast ratio, business, Refractive index

Abstract

Microstructure film attachment and surface roughing techniques had long been utilized to improve the light extraction efficiency from a light source with a high refractive index. Instead of merely concerning the efficiency for lighting purposes, we must take both the light extraction efficiency and image quality into account for display applications. The image blur was observed to decrease the contrast ratio and thus lower image quality. In our previous work, we have studied the image blur effect quantitatively and correlated it to the coverage ratio and light extraction efficiency. In this paper, we apply an innovative microstructure array arrangement to planar light emitting device, i.e., for organic light emitting display (OLED) to reduce the blur effect and keep almost the same efficiency as that obtained by applying a traditional microstructure array.

Published

2007

22. The influence of a microlens array on planar organic light-emitting devices

Author

Hong-Yi Lin, Ming Chang, Yi-Jia Chen, Mao-Kuo Wei, I-Ling Su, and Tung-Chuan Wu

Subjects

Microlens, Number density, Materials science, business.industry, Mechanical Engineering, Luminance, Electronic, Optical and Magnetic Materials, law.invention, Optics, Planar, Mechanics of Materials, law, OLED, Optoelectronics, Electrical and Electronic Engineering, business, Electrical efficiency, Diode, Light-emitting diode

Abstract

Though microlens arrays have been used to enhance luminance efficiency and luminance power efficiency of light-emitting diodes (LEDs) and organic LEDs, the influence of the parameters of a microlens array on the efficiency improvement has not been systematically discussed. In this study, the influences of the edge length and the gap of the microlens array on the luminance efficiency, CIE index and optical emitting spectrum of planar OLED devices will be explored. Additionally, a method of analyzing the performance of the luminance efficiency improvement of the device per single microlens in a microlens array of known microlens number density is to be demonstrated.

Published

2006

23. Broadband antireflection film with moth-eye-like structure for flexible display applications

Author

Guanjun Tan, Lung-Han Peng, Yi-Hsin Lan, Shin-Tson Wu, Jiun-Haw Lee, Mao-Kuo Wei, and I-Chun Cheng

Subjects

Liquid-crystal display, Materials science, Nanostructure, business.industry, 02 engineering and technology, Substrate (printing), engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Display device, 010309 optics, Optics, Solar cell efficiency, Coating, law, Flexible display, 0103 physical sciences, engineering, Optoelectronics, Thin film, 0210 nano-technology, business

Abstract

Sunlight readability is a critical requirement for display devices, especially for mobile displays. Anti-reflection (AR) films can greatly improve sunlight readability by reducing the surface reflection. In this work, we demonstrate a broadband moth-eye-like AR surface on a flexible substrate, intended for flexible display applications. The moth-eye-like nanostructure was fabricated by an imprinting process onto a flexible substrate with a thin hard-coating film. The proposed nanostructure exhibits excellent AR with luminous reflectance 3 H), which is favorable for touch panels. A small bending radius (8 mm) was also demonstrated, which makes the proposed nanostructure applicable for flexible displays. Additionally, a fluoroalkyl coating was applied onto the moth-eye-like surface to improve the hydrophobicity (with a water contact angle >100°). Such a self-cleaning feature helps protect touch panels from dust and fingerprints. The proposed moth-eye-like AR film is expected to find widespread applications for sunlight readable flexible and curved displays.

Published

2017

24. Emitting layer design of a white organic light-emitting device

Author

Man-kit Leung, Yi-Hsin Lan, Tien-Lung Chiu, Mao-Kuo Wei, Shun-Wei Liu, Jiun-Haw Lee, Chih-Hung Hsiao, and Chin-Ti Chen

Subjects

Physics::General Physics, Materials science, Dopant, business.industry, Doping, General Physics and Astronomy, Astrophysics::Cosmology and Extragalactic Astrophysics, Trapping, Fluorescence, law.invention, law, Astrophysics::Solar and Stellar Astrophysics, Optoelectronics, Phosphorescent organic light-emitting diode, General Materials Science, Emission spectrum, business, Phosphorescence, Astrophysics::Galaxy Astrophysics, Common emitter

Abstract

A white organic light-emitting device (WOLED) based on a phosphorescent blue and green emitter combined with red fluorescent one doped in a single host is presented. In such a device, efficient phosphorescent sensitization (PS) was achieved from the green phosphorescent emitter to the red fluorescent one, which was directly observed from transient electroluminescence. An undoped region was inserted between the green and blue dopant region to stabilize the emission spectra. In this configuration, the main recombination zone was at the blue-emitting region, and the minor one was located at the green one near the undoped region. To avoid carrier trapping, the red fluorescent emitter with a reasonably high concentration (0.5%) was doped away from the minor recombination zone. That WOLED exhibited a longer operation lifetime than the phosphorescent blue/green device, because the PS provided a radiative efficient energy relaxation from the green phosphorescent emitter to the red fluorescent one.

Published

2011

25. Fabrication of a Micromachined Tunable Capacitor Using the Complementary Metal–Oxide–Semiconductor Post-Process of Etching Metal Layers

Author

Ming Wei Chang, Mao Kuo Wei, Mao Chen Liu, Heng-Ming Hsu, and Ching-Liang Dai

Subjects

Materials science, Fabrication, Physics and Astronomy (miscellaneous), business.industry, General Engineering, Process (computing), General Physics and Astronomy, Capacitance, law.invention, Metal, Capacitor, CMOS, law, Etching (microfabrication), visual_art, visual_art.visual_art_medium, Optoelectronics, business, Actuator

Abstract

In this study, we investigate the fabrication of a micromechanical tunable capacitor using the commercial complementary metal–oxide–semiconductor (CMOS) process and the post-process of maskless wet etching metal layers. The post-process has merits of easy execution and low cost. The post-process uses two etchants to etch the metal layers to release the suspended structures of the tunable capacitor. The comb-drive actuator is employed to change the position of the movable plate in the parallel capacitor, such that the overlap area between the two plates in the parallel capacitor is changed. The experimental results show a capacitance of 3.5 pF and a tuning range of 3.5:1 at 20 V.

Published

2006

26. Partitioning pixel of organic light-emitting devices with center-hollowed microlens-array films for efficiency enhancement

Author

Jiun-Haw Lee, Yu-Ting Hsiao, Kuan-Yu Chen, Mao-Kuo Wei, and Hoang Yan Lin

Subjects

Microlens, Brightness, Optics and Photonics, Materials science, Pixel, Light, business.industry, Optical power, Equipment Design, Luminance, Atomic and Molecular Physics, and Optics, Fluorescence, law.invention, Refractometry, Optics, law, OLED, Image Processing, Computer-Assisted, Optoelectronics, Computer Simulation, business, Light-emitting diode, Diode, Lenses

Abstract

A pixel partition scheme assisted with patterned or center-hollowed microlens-array films (MAFs) was proposed to improve the optical characteristics and electrical properties of organic light-emitting diodes (OLEDs). In our optical simulation results, a pixel of 1 × 1 mm(2) with a center-hollowed MAF has a 42% luminance enhancement; however, after dividing the large pixel into ten by ten smaller pixels of 100 × 100 μm(2), the partitioned units with a corresponding center-hollowed MAF can have a 104% luminance enhancement under the same total active area and the same optical power of organic emitters. Furthermore, a significant 127% luminance enhancement by the introduction of a high-refractive-index substrate can be obtained.

Published

2010

27. Emission enhancement of microlens on OLED with different layer structures

Author

Yu-Hsuan Ho, Jiun-Haw Lee, Mao-Kuo Wei, Jheng-Hao Fang, and Hoang Yan Lin

Subjects

Microlens, Dipole, Optics, Materials science, Interference (communication), business.industry, OLED, Optoelectronics, Near and far field, Substrate (electronics), business, Layer (electronics), Layered structure

Abstract

Low out-coupling efficiency is one of the most critical problems in organic light-emitting device (OLED) application. Only 20~30% of the emitting light from OLED can propagate into air [1]. Therefore, several methods have been utilized to extract more light from device. Here, we use the microlens array attached on device to couple out wave-guiding mode in the glass substrate. We found that, the luminous enhancement behavior has great dependence on OLED structure. When light emitted in the layered structure of OLED, the wide angle interference and multi-beam interference occurred, and far-field emission profile change simultaneously. For different emission profile, microlens array film shows a different enhancement behavior. For a conventional OLED device, the most critical interference will occur at the electron transport layer (ETL). We fabricated a series of OLEDs with different ETL thicknesses to investigate the influence to the optical properties, such as spectrum, CIE coordinate change, and emission profile at different view angles. By controlling the emission dipole position, we investigate the relation between the emission profile and the efficiency enhancement by microlens array attachment. When increasing the ETL thicknesses from 30nm to 150nm, the weaker micro cavity effect results in broader spectrum and more light extracted. In these devices, the luminous enhancement varies from 25.1% to 51.3%.

Published

2008

28. The Effect of Sub-Wavelength Structure Morphology on Anti-Reflection Properties

Author

Jen-Hui Tsai, Hung-Yi Lin, Mao-Kuo Wei, Shuo-Hung Chang, and Tung-Chuan Wu

Subjects

Wavelength, Engineering drawing, Reflection (mathematics), Morphology (linguistics), Optics, Materials science, business.industry, Thermal, Pillar, Wafer, Photoresist, business, Sub wavelength

Abstract

In this paper, we present a new thermal reflow method to transform photresist pillars into the shapes of spherical caps and month-eyes. We also investigated the effect of this sub-wavelength structure morphology on anti-reflection properties of these photoresist patterns. The diameter, the height, and the pitch of this regularly arranged pillar array were set at 200, 250, and 340 nm, respectively. After the thermal reflow, experimental results showed that the reflectivity of the heat-treated photoresist patterns can be reduced to approximately one fourth of that of the polished surface of the silicon wafer.

Published

2008

29. Optical characteristics of the OLED with microlens array film attachment

Author

Chung-Yu Lin, Jiun-Haw Lee, Hoang Yan Lin, Kuan-Yu Chen, Mao-Kuo Wei, Yu-Hsuan Ho, and Sheng-Chih Hsu

Subjects

Microlens, Full width at half maximum, Optics, Planar, Materials science, business.industry, Image quality, OLED, Illuminance, Optoelectronics, business, Viewing angle, Luminance

Abstract

We investigated the luminance enhancement, spectral shift and image blur of the OLED with the microlens array film (MAF) attachment experimentally and theoretically. Higher density, larger curvature, and smaller diameter of the microlenses extracted more light from the substrate mode. The maximum improvements of the luminance at the normal direction and the total power were 42.5% (80%) and 45% (85%) from our experimental (simulation) results, respectively. The differences between the theoretical and experimental results may come from the non-Lambertian radiation of OLED and the imperfection of the microlens array film. From observing the planar OLED, the peak wavelength is blue-shifted and the full width at the half maximum (FWHM) decreased with respect to increasing viewing angles due to the microcavity effect. When the MAF was attached, the spectral peak had a further blue shift (5 to 10 nm at different viewing angles) compared to that of the planar OLED and it came from the light extraction of the MAF from the substrate mode. We also quantitatively investigated the "blur width" of the OLED with MAF attachment. Higher image blur was observed as accompanied with higher extraction efficiency which showed a tradeoff between the image quality and extraction efficiency. It means that the MAF attachment is more suitable for OLED lighting application, rather than display application. To reduce the image blur and keep the high extraction efficiency at the same time, we re-designed the arrangement of the microlens arrays on the film. In our optimized case, we found that the blur width can be reduced from 79 μm to 9 μm, while the extraction efficiency is kept nearly the same. It shows a possibility to use the microlens array film on real OLED display for improving the extraction efficiency without image quality degradation.

Published

2007

30. A novel microlens arrays coupler of surface plasmon resonance for biochemical applications

Author

Jiun-Haw Lee, Kuan-Yu Chen, Nan Fu Chiu, Yu-Hsuan Ho, Chii-Wann Lin, and Mao Kuo Wei

Subjects

Microlens, Materials science, business.industry, Physics::Medical Physics, Surface plasmon, Physics::Optics, Charge density, Dielectric, Surface plasmon polariton, Optics, Optoelectronics, Prism, Surface plasmon resonance, business, Biosensor

Abstract

This study proposed a novel appro ach to replace the traditional surface plasmon resonance (SPR) bulk prism by microlens arrays (MLAs). It demonstrated the effect that coupling SPR on the optical response of microlens arrays structure. Surface plasmons are features specific to the interface of metal-dielectric. They are due to charge density oscillations in the metal, accompanied by electromagnetic field dissipation in the metal and in the dielectric. SPR biosensor bulk prism technology has been commercialized and SPR biosensors have become a central tool for characterizing and quantifying biomolecu lar interactions. We will used this microlens arrays coupling SPP phenomenon, which gives rise to selective spectral response due to a local field enhancement interrelating the optical and biochemical domains. Keywords : surface plasmon resonance (SPR), mi crolens arrays (MLAs), biosensor.

Published

2007

31. Luminance Enhancement and Blur Effect of Microlens Array Film Attachment on Organic Light-Emitting Device

Author

Yu-Hsuan Ho, Jiun-Haw Lee, Hoang Yan Lin, Chiao-Chi Lin, Kuan-Yu Chen, and Mao-Kuo Wei

Subjects

Microlens, Optics, Materials science, business.industry, OLED, Optoelectronics, business, Luminance, Organic light emitting device

Abstract

We demonstrate a luminance enhancement of 42.5% on an organic light-emitting device attached by a microlens array film. The blurwidth was defined and the relations between the blurwidth and the luminance enhancement were discussed.

Published

2006

32. Design and Analysis of Microoptical Elements for Display Applications

Author

Mao-Kuo Wei, Jiun-Haw Lee, Hoang Yan Lin, and Sheng-Chih Hsu

Subjects

Microlens, Materials science, Optics, business.industry, Thermal, OLED, Optoelectronics, Area ratio, Ray tracing (graphics), business, Optical arrays

Abstract

A microlens array formed by thermal reflow is attached to an OLED (organic light emitting diode) device and the light extraction efficiency can be enhanced. The efficiency improvement is simulated by a ray-tracing algorithm and is greatly influenced by adjusting the area ratio and the height ratio.

Published

2006

33. Excimer-laser-assisted deposition of diamondlike carbon hard coatings

Author

Adolf Lang, Angelika Popp, Hans Wilhelm Bergmann, Mao-Kuo Wei, and Karsten Schutte

Subjects

Materials science, Excimer laser, medicine.medical_treatment, Substrate (electronics), Laser, law.invention, Pulsed laser deposition, Carbon film, law, Physical vapor deposition, medicine, Deposition (phase transition), Composite material, Layer (electronics)

Abstract

Diamond-like carbon (DLC) films were deposited using the excimer laser assisted physical vapor deposition at room temperature. The films deposited at high vacuum (10-5 mbar) revealed more diamond-like character than under other atmospheres of argon and hydrogen. DLC- films can be deposited with a thickness more than 1 micrometers with the help of either an additional Ti-buffer layer or an in-situ laser treatment during the deposition. The adhesion of the films was qualitatively determined by using the indentation and bending tests. Additionally, the adhesion was found to be dependent on the power densities for the target ablation (IT) and for the in-situ laser treatment (IS), as well as, on the applied buffer layer. The roughness was found to be proportional to the film thickness at various surface morphologies of the substrate. The friction coefficient of DLC-films against steel (100Cr6) was found to be approximately 0.1 and the wear loss of the films was dependent on the properties of substrate material.© (1997) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1997

34. Deposition of diamondlike carbon films using XeCl excimer laser

Author

Karsten Schutte, Adolf Lang, Mao-Kuo Wei, Robert Queitsch, and Hans Wilhelm Bergmann

Subjects

Materials science, Excimer laser, medicine.medical_treatment, Analytical chemistry, Diamond, engineering.material, Laser, Pulsed laser deposition, law.invention, Carbon film, law, Physical vapor deposition, engineering, medicine, Deposition (phase transition), Power density

Abstract

Diamond-like carbon (DLC) films were deposited using the laser-assisted physical vapor deposition (LPVD) method. This work is dedicated to an XeCl-excimer laser PVD procedure. The influences of the power density, working distance, and substrate temperature on the DLC-deposition are discussed. The propagation velocity of the laser ignited plasma was determined using short-time photography and time-of-flight (TOF) method.

Published

1997

35. High efficiency yellow organic light-emitting diodes with a solution-processed molecular host-based emissive layer

Author

Cheng-I. Chiang, Sun-Zen Chen, Jung-Yu Li, Yu-Lin Chen, Chieh-Ju Li, Shiang-Hau Peng, Ming-Chung Liu, Shih-Ming Shen, Yung-Cheng Jou, Yi-Ping Lin, Jwo-Huei Jou, Hsiao-Wen Hung, Young-Shan Sun, Ching-Wu Wang, Cheng-Hua Chen, You-Xing Lin, Wei-Ben Wang, and Mao-Kuo Wei

Subjects

Materials science, business.industry, Exciton, Doping, Nanotechnology, General Chemistry, Materials Chemistry, OLED, Optoelectronics, business, Layer (electronics), Electrical efficiency, Host (network), Diode, Common emitter

Abstract

Highly efficient yellow organic light-emitting diodes (OLEDs) with a solution-process feasible emissive layer were fabricated by simply using molecular hosts doped with an iridium-complex based yellow emitter. The best yellow OLED device studied here showed for example, at 100 cd m−2, a power efficiency of 32 lm W−1, a 113% improvement compared with the prior record of 15 lm W−1 based on the same emitter with a polymeric host. The marked efficiency improvement may be attributed to the device being composed of an electron-injection-barrier free architecture, a device structure that led the excitons to generate preferably on the host to enable the efficiency-effective host-to-guest energy transfer to occur and the employed molecular host that exhibited a good host-to-guest energy transfer. The efficiencies were further improved to 53, 39 and 14 lm W−1 at 100, 1000 and 10 000 cd m−2, respectively, with the use of a micro-lens. This study also demonstrates the possibility of achieving relatively high device efficiency for wet-processed OLED devices via balancing the injection of carriers with commercially available OLED materials and limited designs in device structure.

Published

2013

36. High efficiency yellow organic light emitting diodes with a balanced carrier injection co-host structure

Author

Yi-Shan Wang, Hui-Huan Yu, Di-Hong Lin, Ching-Chiun Wang, Shih-Ming Shen, Szu-Hao Chen, Mao-Kuo Wei, Chien-Chih Chen, Yung-Cheng Jou, Jwo-Huei Jou, Shiang-Hau Peng, Fu-Ching Tung, Chun-Yu Hsieh, Jing-Ru Tseng, You-Xing Lin, and Chun Hao Lin

Subjects

Materials science, Fabrication, Injection device, business.industry, Materials Chemistry, OLED, Optoelectronics, Quantum efficiency, General Chemistry, business, Diode

Abstract

We demonstrate herein the design and fabrication of a highly efficient yellow organic light-emitting diode (OLED) with a balanced carrier injection device architecture having a zero electron-injection-barrier host blended with a hole-injection aiding co-host. The resultant yellow OLED showed, at 1000 cd m−2 for example, an efficacy of 59 lm W−1, current efficiency of 71 cd A−1 and external quantum efficiency (EQE) of 23%, with values of 42 lm W−1, 47 cd A−1 and 15% EQE without a co-host. The co-host effect that resulted in very balanced carrier injection was also valid for other yellow OLED devices and their efficiency improvement was also very marked. With the use of a micro-lens, the device efficiency is further improved to 79 lm W−1, 96 cd A−1 and 30% EQE.

Published

2013

37. Device-dependent angular luminance enhancement and optical responses of organic light-emitting devices with a microlens-array film

Author

Jiun-Haw Lee, Hoang Yan Lin, Mao-Kuo Wei, Yung-Ting Chang, Kuan-Yu Chen, Jia-Rong Lin, and Yu-Hsuan Ho

Subjects

Microlens, Materials science, business.industry, Luminous intensity, Viewing angle, Luminance, Atomic and Molecular Physics, and Optics, Spectral line, Electronic, Optical and Magnetic Materials, Optics, Apodization, OLED, Optoelectronics, Electrical and Electronic Engineering, business, Common emitter

Abstract

— By taking the organic emitter apodization calculated from electromagnetic theory as input, the angular luminance enhancement of organic light-emitting devices (OLEDs) with a microlens-array film (MAF) can be further evaluated by the ray-tracing approach. First, the OLEDs of different Alq3 thickness are fabricated and their angular luminance measurements are compared to simulation results. Second, mode analyses for different layers are performed to estimate the enhancement potential of the MAF-attached devices. Finally, by decreasing the Alq3 thickness, increasing the viewing angle, and attaching the MAF, the EL spectral peak shifts of the OLEDs seem irregular, but the spectral blue shifts induced by the optical structures are all explained by the optical responses (EL spectra divided by the intrinsic PL spectrum). In conclusion, the organic emitters with higher off-axis-angle luminous intensity cause lower out-coupling efficiency but gain higher enhancement after the MAF is attached. With the choices of apodizations and microstructures, the tailored or customized angular radiation patterns can be also made possible.

Published

2011

38. High-efficiency, very-high color rendering white organic light-emitting diode with a high triplet interlayer

Author

Po-Shian Wu, Shih-Ming Shen, Jwo-Huei Jou, Mao-Kuo Wei, Ming-Hsuan Wu, Yi-Chieh Chou, Chuen-Ren Lin, Szu-Hao Chen, Ri-Zhong Wu, and Ching-Wu Wang

Subjects

Fabrication, Materials science, business.industry, Doping, General Chemistry, Fluorescence, Optics, Materials Chemistry, OLED, Optoelectronics, business, Phosphorescence, Electrical efficiency, Visible spectrum, Diode

Abstract

This study reports the fabrication of a highly efficient, very high color-rendering index (CRI) white organic light-emitting diode (OLED) using five organic dyes doped into two different phosphorescent and fluorescent emissive layers separated by a high triplet-energy interlayer. The resulting white OLED achieves a 93 CRI with a power efficiency of 23.3 lm W−1 at 100 cd m−2, or 14.3 lm W−1 at 1000 cd m−2. This high CRI is attributable to the five dyes employed in this design, which together emit a relatively wide spectrum that nearly covers the entire range of visible light. At the proper thickness, the interlayer enables the device to balance the distribution of carriers in the two emissive zones and achieve a maximum power efficiency while maintaining high CRI.

Published

2011

39. Luminance and image quality analysis of an organic electroluminescent panel with a patterned microlens array attachment

Author

Mao-Kuo Wei, Kuan-Yu Chen, Hoang Yan Lin, Jheng-Hao Fang, Sheng-Chih Hsu, Yu-Hsuan Ho, Jia-Rong Lin, and Jiun-Haw Lee

Subjects

Microlens, Total internal reflection, Materials science, Pixel, business.industry, Image quality, Electroluminescence, Ray, Luminance, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, OLED, Optoelectronics, business

Abstract

Luminance and image quality observed from the normal direction of a commercial 2.0 inch panel based on organic electroluminescence (OEL) technology attached to regular and patterned microlens array films (MAFs) were studied and analyzed. When applying the regularly arranged MAF on the panel, a luminance enhancement of 23% was observed, accompanied by a reduction of the image quality index as low as 74%. By removing the microlenses on the emitting areas, the patterned MAF enhances the luminance efficiency of the OEL by 52% keeping the image quality index of the display as high as 94%, due to the effective light extraction in the glass substrate being less than the critical angle. 3D simulation based on a ray-tracing model was also established to investigate the spatial distribution of light rays radiated from an OEL pixel with different microstructures which showed consistent results with the experimental results.

Published

2010

40. Emitter apodization dependent angular luminance enhancement of microlens-array film attached organic light-emitting devices

Author

Yung-Ting Chang, Jiun-Haw Lee, Kuan-Yu Chen, Yu-Hsuan Ho, Mao-Kuo Wei, and Hoang Yan Lin

Subjects

Microlens, Total internal reflection, Miniaturization, Materials science, business.industry, Membranes, Artificial, Equipment Design, Luminous intensity, Luminance, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Optics, Apodization, Luminescent Measurements, OLED, Quantitative Biology::Populations and Evolution, Optoelectronics, Spontaneous emission, Organic Chemicals, business, Lighting, Lenses, Common emitter

Abstract

Taking organic emitter apodization calculated from electromagnetic theory as input, the angular luminance enhancement of a microlens-array-film (MAF) attached OLED (organic light-emitting device) can be further evaluated by ray-tracing approach. First, we assumed artificial emitters and revealed that not every OLED with MAF has luminance enhancement. Then, the OLEDs of different Alq(3) thickness were fabricated and their angular luminance measurement validated simulation results. Mode analyses for different layers were performed to estimate the enhancement potential of the MAF attached devices. In conclusion, the organic emitters with higher off-axis-angle luminous intensity cause lower out-coupling efficiency but gain higher enhancement after the MAF attached.

Published

2010

41. P-44: Patterned Microlens-Array Films Assisted with Auxiliary Electrodes for Luminance Improvement in Large-Area OLEDs

Author

Yu-Ting Hsiao, Kuan-Yu Chen, Mao-Kuo Wei, Hoang Yan Lin, and Jiun-Haw Lee

Subjects

Microlens, Materials science, Physics::Instrumentation and Detectors, business.industry, Luminance, Anode, Relative luminance, Optics, Physics::Plasma Physics, Electrode, OLED, Optoelectronics, business, Common emitter

Abstract

The auxiliary or supporting electrodes are often utilized for the large-emitting-area OLEDs for better electrical properties. However, the auxiliary electrodes also blocked or absorbed the light from the emitter. In our optical simulation, we present the partitioned OLED units with the grid-type auxiliary anode and patterned or center-hollowed microlens-array films to obtain more than 141.7% in relative luminance at normal direction.

Published

2010

42. P-152: Emitter-Apodization-Dependent Angular Luminance Enhancement of Microlens-Array Film Attached OLED Devices

Author

Kuan-Yu Chen, Jiun-Haw Lee, Mao-Kuo Wei, Yu-Hsuan Ho, Yung-Ting Chang, and Hoang Yan Lin

Subjects

Microlens, Electromagnetic theory, Optics, Materials science, Apodization, business.industry, OLED, Quantitative Biology::Populations and Evolution, Optoelectronics, Luminous intensity, business, Luminance, Common emitter

Abstract

Taking organic emitter apodization calculated from electromagnetic theory as input, the angular luminance enhancement of a microlens-array-film (MAF) attached OLED (organic light-emitting device) can be further evaluated by raytracing approach. First, we assumed artificial emitters and revealed that not every OLED with MAF has luminance enhancement. Then, the OLEDs of different Alq3 thickness were fabricated and their angular luminance measurement validated simulation results. Mode analyses for different layers were performed to estimate the enhancement potential of the MAF attached devices. In conclusion, the organic emitters with higher off-axis-angle luminous intensity cause lower out-coupling efficiency but gain higher enhancement after the MAF attached.

Published

2010

43. Directional photoluminescence enhancement of organic emitters via surface plasmon coupling

Author

Yu-Hsuan Ho, Kuang-Chong Wu, Chii-Wann Lin, Tien Lung Chiu, Jiun-Haw Lee, Shou Yu Nien, Nan Fu Chiu, Chih-Kung Lee, Mao Kuo Wei, and Jia Rong Lin

Subjects

Permittivity, Materials science, Photoluminescence, Physics and Astronomy (miscellaneous), business.industry, Surface plasmon, Physics::Optics, Relative permittivity, Grating, Optoelectronics, business, Diffraction grating, Plasmon, Localized surface plasmon

Abstract

In this paper, we had quantitatively investigated the photoluminescence of organic emitter on a Si substrate with periodically corrugated metal thin film experimentally and theoretically. Due to the plasmonic coupling by the metal gratings, 4.3 times and 1.7 times enhancements in optical intensities were observed at specified and full viewing angles at certain wavelengths, respectively. Good agreement of angular-frequency versus in-plane wavevector (ω-k) curves between experiments and calculations were obtained when varying organic materials, metal materials, and grating pitches. Two different metal materials were used, which show slight shift in ω-k curves due to the high sensitivity of the surface plasmon to the relative permittivity.

Published

2009

44. P-155: OLED Display Attached by Patterned Microlens Array for Light Extraction with Negligible Image Blur

Author

Sheng-Chih Hsu, Yu-Hsuan Ho, Jiun-Haw Lee, Hoang Yan Lin, Kuan-Yu Chen, Mao-Kuo Wei, and Jheng-Hao Fang

Subjects

Microlens, Total internal reflection, Optics, Materials science, Image quality, business.industry, Optical intensity, OLED, Optoelectronics, Substrate (printing), business, Ray, Luminance

Abstract

We demonstrate a 51.9% luminance enhancement with keeping the image quality index of the display as high as 94%, by attaching a patterned microlens array film on a commercial 2.0-inch OLED display. By removing the microlens upon the emitting area, light rays in the glass substrate less than critical angle was effectively extracted, which increases the optical intensity and reduces the image blur at the same time.

Published

2009

45. Efficiency improvement and image quality of organic light-emitting display by attaching cylindrical microlens arrays

Author

Jheng-Hao Fang, Mao-Kuo Wei, Jia-Rong Lin, Hoang Yan Lin, Jiun-Haw Lee, Sheng-Chih Hsu, Kuan-Yu Chen, and Yu-Hsuan Ho

Subjects

Microlens, Materials science, Image quality, business.industry, Viewing angle, Atomic and Molecular Physics, and Optics, Luminous flux, Optics, OLED, Optoelectronics, business, Normal, Photonic crystal, Diode

Abstract

In this paper, cylindrical microlens arrays with two different alignments were proposed to be applied in a commercial mobile phone having an organic light-emitting diode (OLED) panel. It was found that the parallel-aligned cylindrical array had better performance than the vertical-aligned one for the OLED panel. The parallel-aligned cylindrical microlens array can increase the luminous current efficiency at surface normal and the luminous power efficiency of the OLED panel by 45% and 38%, respectively. Besides, it can also make the spectrum of the OLED panel more insensitive to the viewing angle. Though it can slightly blur the image on the OLED panel, the universal image quality index can be maintained at a level of 0.8630.

Published

2008

46. Patterned microlens array for efficiency improvement of small-pixelated organic light-emitting devices

Author

Tung-Chuan Wu, Jheng-Hao Fang, Jen-Hui Tsai, Yu-Hsuan Ho, Mao-Kuo Wei, Hoang Yan Lin, Sheng-Chih Hsu, Kuan-Yu Chen, Juin-Haw Lee, and Hung-Yi Lin

Subjects

Microlens, Total internal reflection, Miniaturization, Materials science, Pixel, business.industry, Equipment Design, Ray, Luminance, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Luminous flux, Optics, Planar, Semiconductors, OLED, Computer-Aided Design, Optoelectronics, Organic Chemicals, business, Lighting, Lenses

Abstract

In this paper, we experimentally and theoretically investigated the optical characteristics of organic light-emitting devices (OLEDs), having different pixel sizes and attached with patterned microlens array films. For a regular microlens array, though it can extract the waveguiding light and increase luminous current efficiency for a large-pixelated OLED, we observed that it decreases the luminance to an even lower level than that of the planar OLED as its pixel size is close to the microlens dimension. Although a microlens can effectively outcouple the light rays originally at incident angles larger than the critical angle, it also can impede the outcoupling for the light rays originally at incident angles smaller than the critical angle. Enhancement or reduction of the light extraction depends on the relative positions of the light emitting point and the microlens. Therefore, we proposed a center-hollowed microlens array, of which the microlenses directly upon the pixel are removed, and proved that it can increase the luminous current efficiency and luminous power efficiency of a small-pixelated OLED. By attaching this patterned microlens array, 87% of luminance enhancement in the normal direction was observed for a 0.1x0.1 mm2 OLED pixel. On the other hand, a regular microlens array resulted in 4% decrease under the same condition.

Published

2008

47. P-217: 120% Luminance Enhancement of OLED by Patterned Microlens Array

Author

Jiun-Haw Lee, Mao-Kuo Wei, Jheng-Hao Fang, Hoang Yan Lin, Kuan-Yu Chen, and Yu-Hsuan Ho

Subjects

Microlens, Materials science, Optics, Pixel, business.industry, OLED, Optoelectronics, business, Normal, Luminance

Abstract

We demonstrate a 120% luminance enhancement, experimentally and theoretically, by attaching a patterned microlens array film on a conventional bottom emission OLED. Design rules were established qualitatively and quantitatively, which include: (1) pixel size affects the microlens arrangement, (2) smaller pixel has larger luminance enhancement, and (3) luminance enhancement is most obvious at the normal direction.

Published

2008

48. 7.2: Tandem OLED and Reflective LCD with a Microlens Array

Author

Shin-Tson Wu, Yi-Hsin Lin, Jiun-Haw Lee, Wing-Kit Choi, Mao Kuo Wei, Xinyu Zhu, Zhibing Ge, and Kuan-Yu Chen

Subjects

Microlens, Brightness, Materials science, Liquid-crystal display, business.industry, Viewing angle, law.invention, Optics, law, OLED, Optoelectronics, Quantum efficiency, Contrast ratio, business, Viewing cone

Abstract

A tandem device by stacking a normally black reflective liquid crystal display (NB-RLCD) and an organic light-emitting device (OLED) is demonstrated which can be operated under bright and dark ambient by switching between the two modes. The vertically integrated architecture increases the aperture ratio, brightness and resolution of the display. The normally black characteristic of the RLCD serves a function to increase the ambient contrast ratio (A-CR) under OLED mode operation. Under NB-RLCD mode operation, a high A-CR over 40:1 was obtained. Besides, a microlens array is embedded to the device for improving the viewing angle of the RLCD (CR>2:1 over 55° viewing cone) and enhancing (44%) the external quantum efficiency of the OLED.

Published

2006

49. Method to evaluate the enhancement of luminance efficiency in planar OLED light emitting devices for microlens array

Author

Mao-Kuo Wei and I-Lin Su

Subjects

Microlens, Materials science, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Luminance, Atomic and Molecular Physics, and Optics, Light intensity, Planar, Optics, OLED, Optoelectronics, Area ratio, Quantum efficiency, Astrophysics::Earth and Planetary Astrophysics, business

Abstract

A method based on the variation of the area ratio of the base surface of microlenses to the light-emitting surface of the planar OLED device has been demonstrated. This method can evaluate the performance of microlens arrays with a desired geometrical shape on the improvement of the luminance efficiency for the planar light emitting devices. The maximum enhancement of the luminance efficiency of the devices in the studied microlens arrays is 56%. It is also found that the improvement of the luminance efficiency of the devices increases linearly with decreasing base length of the microlens array.

Published

2004