Your search keyword '"Gae Hwang Lee"' showing total 37 results

1. Color Thin-Film Transistors Employing Periodic Nanohole Structures

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Author

Hongki Kang, Seunguk Kim, Jae Eun Jang, Hyuk-Jun Kwon, Gae Hwang Lee, Goeun Pyo, Jae Hoon Yang, Su Jin Heo, and Jeong Hee Shin

Subjects

Materials science, Opacity, Nanohole, business.industry, Transistor, Electronic, Optical and Magnetic Materials, law.invention, Thin-film transistor, law, Color gel, Materials Chemistry, Electrochemistry, Optoelectronics, Metal electrodes, business, Plasmon

Abstract

A thin-film transistor (TFT) with a color filter function achieved by designing periodic nanohole arrays in the metal electrodes was studied. Since this metal electrode is not opaque but transparen... more...

Published

2020

2. Standalone real-time health monitoring patch based on a stretchable organic optoelectronic system

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Author

Sang Joon Kim, Youngjun Yun, Sung-gyu Kang, Suk Gyu Hahm, Hyunjun Yoo, Chisung Bae, Sangah Gam, Sunghan Kim, Jong Won Chung, Joo-Young Kim, Sujin Jeong, Don-Wook Lee, Yongtaek Hong, Hyunbum Kang, Gae Hwang Lee, Yasutaka Kuzumoto, Ji Young Jung, Yeongjun Lee, Zhenan Bao, and Hyeon Cho more...

Subjects

Real time health monitoring, Multidisciplinary, integumentary system, Wireless data transmission, Computer science, business.industry, Materials Science, SciAdv r-articles, Wearable computer, Stress relief, Engineering, Optoelectronics, Electronics, business, Research Articles, Research Article

Abstract

A skin-like electronic health care patch is demonstrated with a stretchable organic light-emitting diode display and photodiode., Skin-like health care patches (SHPs) are next-generation health care gadgets that will enable seamless monitoring of biological signals in daily life. Skin-conformable sensors and a stretchable display are critical for the development of standalone SHPs that provide real-time information while alleviating privacy concerns related to wireless data transmission. However, the production of stretchable wearable displays with sufficient pixels to display this information remains challenging. Here, we report a standalone organic SHP that provides real-time heart rate information. The 15-μm-thick SHP comprises a stretchable organic light-emitting diode display and stretchable organic photoplethysmography (PPG) heart rate sensor on all-elastomer substrate and operates stably under 30% strain using a combination of stress relief layers and deformable micro-cracked interconnects that reduce the mechanical stress on the active optoelectronic components. This approach provides a rational strategy for high-resolution stretchable displays, enabling the production of ideal platforms for next-generation wearable health care electronics. more...

Published

2021

3. Multifunctional materials for implantable and wearable photonic healthcare devices

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Author

Seunghyup Yoo, David Myung, Hanul Moon, Geon-Hui Lee, Gae Hwang Lee, Seok Hyun Yun, Woosung Kwon, Zhenan Bao, Hyemin Kim, and Sei Kwang Hahn

Subjects

business.industry, Computer science, Light penetration, Wearable computer, 02 engineering and technology, Therapeutic Devices, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biomaterials, Human–computer interaction, Health care, Materials Chemistry, Photonics, 0210 nano-technology, business, Energy (miscellaneous)

Abstract

Numerous light-based diagnostic and therapeutic devices are routinely used in the clinic. These devices have a familiar look as items plugged in the wall or placed at patients' bedsides, but recently, many new ideas have been proposed for the realization of implantable or wearable functional devices. Many advances are being fuelled by the development of multifunctional materials for photonic healthcare devices. However, the finite depth of light penetration in the body is still a serious constraint for their clinical applications. In this Review, we discuss the basic concepts and some examples of state-of-the-art implantable and wearable photonic healthcare devices for diagnostic and therapeutic applications. First, we describe emerging multifunctional materials critical to the advent of next-generation implantable and wearable photonic healthcare devices and discuss the path for their clinical translation. Then, we examine implantable photonic healthcare devices in terms of their properties and diagnostic and therapeutic functions. We next describe exemplary cases of noninvasive, wearable photonic healthcare devices across different anatomical applications. Finally, we discuss the future research directions for the field, in particular regarding mobile healthcare and personalized medicine. more...

Published

2020

4. Surface plasmon enhanced Organic color image sensor with Ag nanoparticles coated with silicon oxynitride

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Author

Yongsung Kim, Gyeong-Su Park, Kyung-Bae Park, Sunghan Kim, Seong Heon Kim, Sung Heo, Hoon Young Cho, Gae Hwang Lee, Dongwook Lee, Taeho Shin, Jooho Lee, Jong-Bong Park, Chul-Joon Heo, Yong Wan Jin, Ki-Hong Kim, Sung Young Yun, and Dong-Jin Yun more...

Subjects

Silicon oxynitride, Materials science, Photodetector, lcsh:Medicine, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Characterization and analytical techniques, Article, chemistry.chemical_compound, Surface plasmon resonance, Absorption (electromagnetic radiation), lcsh:Science, Multidisciplinary, business.industry, Color image, Surface plasmon, lcsh:R, 021001 nanoscience & nanotechnology, Sensors and biosensors, 0104 chemical sciences, chemistry, Optoelectronics, Nanoparticles, Quantum efficiency, lcsh:Q, 0210 nano-technology, business, Layer (electronics)

Abstract

As organic photodetectors with less than 1 μm pixel size are in demand, a new way of enhancing the sensitivity of the photodetectors is required to compensate for its degradation due to the reduction in pixel size. Here, we used Ag nanoparticles coated with SiOxNy as a light-absorbing layer to realize the scale-down of the pixel size without the loss of sensitivity. The surface plasmon resonance appeared at the interface between Ag nanoparticles and SiOxNy. The plasmon resonance endowed the organic photodetector with boosted photon absorption and external quantum efficiency. As the Ag nanoparticles with SiOxNy are easily deposited on ITO/SiO2, it can be adapted into various organic color image sensors. The plasmon-supported organic photodetector is a promising solution for realizing color image sensors with high resolution below 1 μm. more...

Published

2020

5. Green-light-selective organic photodiodes for full-color imaging

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Author

In-Sun Jung, Gae Hwang Lee, Yong Wan Jin, Kwang Hee Lee, Dong-Seok Leem, Xavier Bulliard, Seon-Jeong Lim, Chul-Joon Heo, Sungyoung Yun, Kyung-Bae Park, Jung-Hwa Kim, and Yeong Suk Choi

Subjects

Materials science, Absorption spectroscopy, Organic solar cell, business.industry, 02 engineering and technology, Green-light, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Polymer solar cell, Photodiode, law.invention, 010309 optics, Optics, law, Attenuation coefficient, 0103 physical sciences, Quantum efficiency, 0210 nano-technology, Absorption (electromagnetic radiation), business

Abstract

In this work, organic photodiodes (OPDs) based on two newly synthesized p-type dipolar small molecules are reported for application to green-light-selective OPDs. In order to reduce the blue-color absorption induced by the use of C60 as the n-type material in a bulk heterojunction (BHJ), the electron donor:electron acceptor composition ratio is tuned in the BHJ. With this light manipulation approach, the blue-wavelength external quantum efficiency (EQE) is minimized to 18% after reducing the C60 concentration in the center part of the BHJ. The two p-type molecules get a cyanine-like character with intense and sharp absorption in the green color by adjusting the strength of their donating and accepting parts and by choosing a selenophene unit as a π-linker. When combined to C60, the green-wavelength EQE reaches 70% in a complete device composed of two transparent electrodes. Finally, the optical simulation shows the good color-balance performance of hybrid full-color image sensor without an additional filter by using the developed green OPD as the top-layer in stacked device architecture. more...

Published

2019

6. Highly durable organic photodetector for complementary metal oxide semiconductor image sensors

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Author

Chul-Joon Heo, Sungjun Park, Takkyun Ro, Kyung-Bae Park, Takao Motoyama, Gae Hwang Lee, Yong-young Park, Sunghan Kim, Seon-Jeong Lim, Jae-Cheol Lee, Yeon-hee Kim, Kiyohiko Tsutsumi, Jong-Bong Park, Sungyoung Yun, Yong Wan Jin, Yeoung Suk Choi, and Younhee Lim more...

Subjects

Materials science, Fabrication, Semiconductor device fabrication, Photodetector, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, Biomaterials, law, Materials Chemistry, Electrical and Electronic Engineering, Diode, Organic electronics, business.industry, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Photodiode, Organic semiconductor, Optoelectronics, 0210 nano-technology, business, Dark current

Abstract

Utilizing organic electronics compatible with conventional semiconductor fabrication processes is extremely difficult because of their low chemical resistivity and poor environmental durability. To preserve the intrinsic functionality of organic materials, only a few fabrication processes can be used. Moreover, it is essential to achieve process expandability and silicon-process compatibility to develop high-resolution electronics suitable for mass production. Therefore, we developed wet-process-compatible organic photodetectors by replacing the conventional shadow-mask process with photolithography. This suppresses particle deposition during the serial fabrication processes, providing high operational stability. The fabricated green organic photodiodes exhibit a low dark current (1.0 × 10−11 A/cm2) with high photon–electron conversion efficiency (EQE = 65%). The charge collection and charge separation efficiencies are stable (ηcc = 84.6% and ηcs = 97.7%, respectively). Moreover, the organic semiconductors are compatible with conventional wet- and dry-etching processes owing to thin-film encapsulation layers. Finally, the novel organic image sensor can withstand 500 h under 85 °C/85% relative humidity and 1000 thermal cycles (−55–125 °C). Because of its robustness and strong barrier properties, the novel process architecture reported herein can be extended to any organic electronic devices, including widely commercialized organic light-emitting diodes and organic photovoltaic devices. more...

Published

2021

7. Bi-layered metal-oxide thin films processed at low-temperature for the encapsulation of highly stable organic photo-diode

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Author

Gae Hwang Lee, Seon-Jeong Lim, Kyung-Bae Park, Ryuichi Satoh, Yong-young Park, Yeon-hee Kim, Sang Yoon Lee, Ki-deok Bae, Takkyun Ro, Wenxu Xianyu, Chul-Joon Heo, Yong Wan Jin, Dong-Seok Leem, Xavier Bulliard, Woo-Yong Yang, and Jong-Bong Park more...

Subjects

Silicon oxynitride, Nanotechnology, 02 engineering and technology, Chemical vapor deposition, 010402 general chemistry, 01 natural sciences, law.invention, Biomaterials, Atomic layer deposition, chemistry.chemical_compound, Plasma-enhanced chemical vapor deposition, law, Materials Chemistry, Electrical and Electronic Engineering, Thin film, Chemistry, business.industry, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Active layer, Optoelectronics, Quantum efficiency, Photolithography, 0210 nano-technology, business

Abstract

A novel approach for the thin film encapsulation (TFE) of organic photo-diode (OPD) for the next generation of organic/inorganic hybrid complementary metal oxide semiconductor (CMOS) image sensor is reported. The TFE is composed of two different metal-oxides stacked in bi-layer thin film architecture. The first layer is composed of aluminum oxide (AlOx) deposited by atomic layer deposition (ALD) at a moderate temperature of 100 °C to avoid any damage to the organic active layer. The first layer acts as a water barrier layer and also as a first protective layer for the deposition of a second silicon oxynitride (SiON) layer that could be processed by plasma-enhanced chemical vapor deposition (PECVD) at higher temperatures. The second layer ensures a better mechanical and chemical stability of the whole structure and also serves as a second protective layer from damages induced during the additional processing stages, such as photolithography or microlensing. With the TFE architecture the overall device stability at 85 °C and 85% relative humidity exceeded 1000 h without observable device performance decrease. This was confirmed by fabricating a green-light sensitive OPD characterized by a stable external quantum efficiency of 60–70%. more...

Published

2017

8. Energy Gap between Photoluminescence and Electroluminescence as Recombination Indicator in Organic Small-Molecule Photodiodes

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Author

Kwang Hee Lee, Moon Gyu Han, Yong Wan Jin, Seon-Jeong Lim, Sungyoung Yun, Tadao Yagi, Kyung-Bae Park, Sang Yoon Lee, Dong-Seok Leem, Xavier Bulliard, Gae Hwang Lee, and Yeong Suk Choi

Subjects

Physics, Chemical substance, Quenching (fluorescence), Photoluminescence, business.industry, Band gap, 02 engineering and technology, Electroluminescence, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Polymer solar cell, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Photodiode, law.invention, General Energy, Optics, law, Optoelectronics, Physical and Theoretical Chemistry, 0210 nano-technology, business, Recombination

Abstract

Charge transfer (CT) states at the donor–acceptor interfaces play an important role in organic optoelectronic devices, yielding photocarrier generation or recombination losses. In this study, we fabricate and characterize vacuum-deposited organic photodiodes (OPDs) composed of SubPc:C60 with various active-layer thicknesses and mixing ratios in terms of the charge separation efficiency (CSE) and charge collection efficiency (CCE). We demonstrate that the combined field-assisted quenching study using both photoluminescence (PL) and electroluminescence (EL) reveals detailed information on the device physics of bulk heterojunction photodiodes as related to the CT state. Our modified PL quenching efficiency approach allows us to reasonably evaluate the CSE. In addition, we find that the EL energy is closely related to the recombination loss factor, and the energy gap between PL and EL exhibits a strong linear relationship with the CCE. As a result, the energy gap is proved to be a meaningful indicator of the ... more...

Published

2016

9. The role of defects in organic image sensors for green photodiode

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Author

Seong Heon Kim, Chul-Joon Heo, Yongsung Kim, Kyung-Bae Park, Takkyun Ro, Sung Heo, Jun-Ho Lee, Dong-Jin Yun, Gae Hwang Lee, EunAe Cho, Sunghan Kim, Dongwook Lee, Jooho Lee, and Yong Wan Jin

Subjects

0301 basic medicine, Materials science, Deep-level transient spectroscopy, Silicon oxynitride, Photodetector, lcsh:Medicine, Article, law.invention, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, law, lcsh:Science, Multidisciplinary, Dopant, business.industry, Doping, lcsh:R, Acceptor, Photodiode, 030104 developmental biology, chemistry, Optoelectronics, Quantum efficiency, lcsh:Q, business, 030217 neurology & neurosurgery

Abstract

Controlling defect states in a buffer layer for organic photo devices is one of the vital factors which have great influence on the device performance. Defect states in silicon oxynitride (SiOxNy) buffer layer for organic photo devices can be controlled by introducing appropriate dopant materials. We performed ab initio simulations to identify the effect on doping SiOxNy with carbon (C), boron (B), and phosphorous (P) atoms. The results unveil that hole defects in the SiOxNy layer diminish with the phosphorous doping. Based on the simulation results, we fabricate the small molecule organic photodetector (OPD) including the phosphorous-doped SiOxNy buffer layer and the active film of blended naphthalene-based donor and C60 acceptor molecules, which shows excellent enhancement in the external quantum efficiency (EQE). The results of our charge-based deep level transient spectroscopy (Q-DLTS) measurements confirmed that the EQE enhancement originates from the decrease of the hole traps induced by the reduced hole defects. The method of controlling the defect states in SiOxNy buffer layers by the doping can be used to improve the performance in various organic photo devices. more...

Published

2018

10. Dipolar donor–acceptor molecules in the cyanine limit for high efficiency green-light-selective organic photodiodes

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Author

Yeong Suk Choi, Dong-Seok Leem, Xavier Bulliard, Takkyun Ro, Seon-Jeong Lim, Yong Wan Jin, Kyung-Bae Park, Ryuichi Satoh, Chul-Joon Heo, Sungyoung Yun, Sang Yoon Lee, Tadao Yagi, and Gae Hwang Lee

Subjects

Materials science, business.industry, Aryl, Photodetector, 02 engineering and technology, General Chemistry, Specific detectivity, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Polymer solar cell, 0104 chemical sciences, Photodiode, law.invention, chemistry.chemical_compound, chemistry, law, Materials Chemistry, Optoelectronics, Moiety, Quantum efficiency, Cyanine, 0210 nano-technology, business

Abstract

We report on two novel p-type small molecules with a donor–acceptor molecular structure for application to green-light-selective organic photodiodes (OPDs). To achieve the requirement of high light selectivity and sensitivity, an electron-donating aryl amino moiety is combined with two respective electron-accepting heterocycles so that the molecules approach cyanine-like character, characterized by intense and sharp absorption. Molecular stacking is controlled by the addition of bulky aryl functional groups to the main backbone to further control the electrical charge transport properties. With this molecular design, a maximum external quantum efficiency close to 61% (λmax = 550 nm) and a dark-current density below 1.6 nA cm−2 (or specific detectivity D* = 1.19 × 1013 cm Hz1/2 W−1) at an applied reverse bias of 3 V are obtained when mixed with fullerene (C60) in an inverted-structure bulk heterojunction OPD composed of two transparent electrodes. The potential construction of a full-color photodetector or an image sensor is demonstrated by combining the green-light-selective OPD with a silicon photodiode containing solely blue and red color filters in a stacked architecture. more...

Published

2016

11. Author Correction: Surface plasmon enhanced Organic color image sensor with Ag nanoparticles coated with silicon oxynitride

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Author

Ki-Hong Kim, Sung Young Yun, Sunghan Kim, Yongsung Kim, Kyung-Bae Park, Dong-Jin Yun, Seong Heon Kim, Jooho Lee, Sung Heo, Hoon Young Cho, Yong Wan Jin, Jong-Bong Park, Gyeong-Su Park, Dongwook Lee, Chul-Joon Heo, Gae Hwang Lee, and Taeho Shin more...

Subjects

Multidisciplinary, Materials science, Silicon oxynitride, business.industry, Color image, Surface plasmon, lcsh:R, lcsh:Medicine, Ag nanoparticles, chemistry.chemical_compound, chemistry, Optoelectronics, lcsh:Q, business, Author Correction, lcsh:Science

Abstract

As organic photodetectors with less than 1 μm pixel size are in demand, a new way of enhancing the sensitivity of the photodetectors is required to compensate for its degradation due to the reduction in pixel size. Here, we used Ag nanoparticles coated with SiO more...

Published

2020

12. Enhancement in light extraction efficiency of organic light emitting diodes using double-layered transparent conducting oxide structure

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Author

Kyeong-Wook Park, Jeong-Woo Park, Hyunbin Kim, Yoon-Chae Nah, Gae Hwang Lee, Yoon Young Kwon, Yong Wan Jin, and Joo-young Lee

Subjects

Materials science, Nanoporous, business.industry, Oxide, chemistry.chemical_element, General Chemistry, Condensed Matter Physics, Electrochemistry, Electronic, Optical and Magnetic Materials, Anode, Biomaterials, chemistry.chemical_compound, chemistry, Materials Chemistry, OLED, Optoelectronics, Electrical and Electronic Engineering, business, Current density, Indium, Sheet resistance

Abstract

We examined double-layered transparent conducting oxide (TCO) anode structures consisted of zinc-doped indium oxide (IZO) over the gallium-doped zinc oxide (GZO), and IZO over the GZO with electrochemical treatment. In bottom type OLEDs, power efficiency and current efficiency were enhanced by a factor of 1.50 and 1.14 at a current density of 10 mA/cm2 in IZO/GZO anode structure, compared to the only IZO anode structure. Due to the reduced sheet resistance of the IZO/GZO TCO surface, the operating voltage of the OLED with IZO/GZO anode structure was lowered, leading to mostly enhance power efficiency. More enhanced in power efficiency and current efficiency by a factor of 1.21 and 1.25 at a current density of 10 mA/cm2 were achieved in IZO/GZO anode structure with electrochemical treatment, compared to the IZO/GZO anode structure due to the change of the surface morphology of the GZO and the existence of the nanoporous layer beneath the GZO surface by an electrochemical treatment. In total, double-layered IZO/GZO anode structure with electrochemical treatment was revealed at an enhancement factor of 1.80 in power efficiency and 1.42 in current efficiency, compared to the only IZO anode structure. more...

Published

2014

13. Dynamic Characterization of Green-Sensitive Organic Photodetectors Using Nonfullerene Small Molecules: Frequency Response Based on the Molecular Structure

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Author

Sangyoon Lee, Jong Won Chung, Kyu-Sik Kim, Dong-Seok Leem, Xavier Bulliard, Hyeonho Choi, Gae Hwang Lee, Kyung-Bae Park, Yong Wan Jin, Jiyoul Lee, Kwang Hee Lee, and Soo Young Park

Subjects

business.industry, Photodetector, Dielectric, Capacitance, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Dielectric spectroscopy, chemistry.chemical_compound, General Energy, Terthiophene, chemistry, Polarizability, Quinacridone, Optoelectronics, Molecule, Physical and Theoretical Chemistry, business

Abstract

The dynamic characterization of two green-sensitive organic photodetectors (OPDs) using nonfullerene small molecules is investigated by analyzing the electrical parameters based on the experimental results and the simulated data. The two OPDs comprise N,N-dimethyl quinacridone (DMQA) as the common donor and dibutyl-substituted dicyanovinyl terthiophene (DCV3T) or boron-subphthalocyanine chloride (SubPc) as respective acceptors. At the applied voltage of −5 V, the device composed of DMQA/SubPc shows a higher frequency response at 148.3 kHz, by 55 kHz higher than the device based on DMQA/DCV3T. The impedance spectroscopy results indicate that the former device exhibits the low resistance due to the high mobility and the low capacitance linked to the dielectric constant. According to the molecular quantum calculation, the linear structure of DCV3T may promote packing of adjacent molecules in the linear direction, resulting in a high polarizability. In contrast, the fused structure of SubPc leads to a decreas... more...

Published

2014

14. Recent developments in green light sensitive organic photodetectors for hybrid CMOS image sensor applications (Conference Presentation)

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Author

Dong-Seok Leem, Xavier Bulliard, Gae Hwang Lee, Yong Wan Jin, Kyung-Bae Park, Ryuichi Satoh, Yeong Suk Choi, Sang Yoon Lee, Tadao Yagi, Sungyoung Yun, Kwang Hee Lee, and Seon-Jeong Lim

Subjects

Full width at half maximum, Materials science, Bayer filter, Optics, CMOS, Pixel, business.industry, Color gel, Optoelectronics, Photodetector, Image sensor, business, Dark current

Abstract

Typical CMOS colour image sensors consist of Si-based photodetectors (PDs) attached with colour filter arrays (i.e., the Bayer pattern). Recent trends on the development of high resolution image sensors, however, require downsizing the pixel dimension, which inevitably results in the loss of sensitivity due to the reduction in the photon acquisition. Very recently, hybrid stacks of organic photodetectors (OPDs) on conventional CMOS technologies have been proposed as one of the promising approaches to realise highly sensitive image sensors by doubling the light detecting area in the limited pixel size. Specifically, OPDs with orthogonal photosensitivity to green light and Si-based PDs with red and blue colour filters serve as the top and bottom photo-conversion layers, respectively. In this presentation, we will introduce the recent development of high performance green light sensitive OPDs and the demonstration of colour images from hybrid CMOS image sensors proposed. OPDs consisting of small molecule organic bulk heterto-junction structures, hole/electron buffer layers, and transparent top/bottom ITO electrodes exhibited peak external quantum efficiencies of 60-65% at 550-560 nm wavelengths and full width at half maximum of ~120 nm at reverse bias of 3 V. Extremely low dark current densities in the range of 0.2-0.5 nA/cm2 at reverse bias of 3V and consequently high specific detectivities over 2×10^13 Jones were obtained from the developed OPD system. Further investigations in terms of the molecular structures of organic light absorbing materials, buffer materials, layer sequences, and even integration issues of the OPD on the CMOS will be described in detail. more...

Published

2016

15. Narrow-Band Organic Photodiodes for High-Resolution Imaging

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Author

Yong Wan Jin, Kyoung-won Na, Takkyun Ro, Sungyoung Yun, Chul-Joon Heo, Moon Gyu Han, Tadao Yagi, Sakurai Rie, Sang Yoon Lee, Seon-Jeong Lim, Dong-Seok Leem, Xavier Bulliard, Jung-Chak Ahn, Sang-chul Sul, Kyung-Bae Park, and Gae Hwang Lee more...

Subjects

Materials science, Pixel, business.industry, Color image, Heterojunction, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Photodiode, law.invention, Optics, CMOS, law, Color gel, Optoelectronics, General Materials Science, Image sensor, 0210 nano-technology, business, Absorption (electromagnetic radiation)

Abstract

There are growing opportunities and demands for image sensors that produce higher-resolution images, even in low-light conditions. Increasing the light input areas through 3D architecture within the same pixel size can be an effective solution to address this issue. Organic photodiodes (OPDs) that possess wavelength selectivity can allow for advancements in this regard. Here, we report on novel push–pull D−π–A dyes specially designed for Gaussian-shaped, narrow-band absorption and the high photoelectric conversion. These p-type organic dyes work both as a color filter and as a source of photocurrents with linear and fast light responses, high sensitivity, and excellent stability, when combined with C60 to form bulk heterojunctions (BHJs). The effectiveness of the OPD composed of the active color filter was demonstrated by obtaining a full-color image using a camera that contained an organic/Si hybrid complementary metal-oxide-semiconductor (CMOS) color image sensor. more...

Published

2016

16. Applications of multidirectional reflective light-control films on reflective polymer-dispersed liquid crystal displays for enhancement in image quality at lower viewing angles

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Author

Gae Hwang Lee, Jin Woo Lee, Young Jae Jeon, Jae Eun Jung, Muhammad Jamil, Jae Eun Jang, Farzana Ahmad, and Kyu Young Hwang

Subjects

Brightness, Fabrication, Materials science, Liquid-crystal display, business.industry, Scattering, General Chemistry, Condensed Matter Physics, Light scattering, law.invention, Optics, Liquid crystal, law, General Materials Science, Contrast ratio, Prism, business

Abstract

In this paper, multidirectional light-control reflective (LCR) films are developed in order to create an active reflective structure that will enhance the image brightness and contrast ratio of reflective dye-doped polymer-dispersed liquid crystal (D-PDLC) displays at lower viewing angles. Advantages of LCR films are that their production is low cost and they require a simple photolithographic fabrication method. The optimum design prism-type light-control reflective film succeeded in minimising the surface scattering effect; thus, the contrast ratio is much enhanced. The symmetric and asymmetric LCR films produced multidirectional scattering that enhances the reflectance at lower viewing angles, which has importance in future display applications. In particular, the prism LCR film has been found to be more influential on the reflectance of D-PDLC films due to multidirectional scattering of light by non-symmetric arrays. The improvement in contrast ratio has been confirmed by the enhancement of optical pr... more...

Published

2012

17. Optical enhancement of dye-doped PDLC by additional dye-LC layer coating

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Author

Young Jae Jeon, Jae Eun Jung, Jin Woo Lee, Farzana Ahmad, Jamil Muhammad, Kyu Young Hwang, Jae Eun Jang, and Gae Hwang Lee

Subjects

chemistry.chemical_classification, Materials science, Scattering, business.industry, Organic Chemistry, Polymer, engineering.material, Atomic and Molecular Physics, and Optics, Light scattering, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, chemistry, Coating, Liquid crystal, Shutter, engineering, Optoelectronics, Contrast ratio, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business, Layer (electronics), Spectroscopy

Abstract

Dye-doped PDLC has a high probability to be used as reflective optical shutter due to its good reflectance compared to normal PDLC or LC shutter structures. The black state can be significantly enhanced by the minimized surface scattering between polymer and LC surface, which makes a harmful result to the contrast ratio, one of most important factors for optical shutter. To remove this scattering effect, we have developed new combinational structure, consisted of guest dye-doped LC (DLC) and dye-doped PDLC (DPDLC). In the newly fabricated dye-doped PDLC structure, the front location of dye-doped LC layer can remove the light scattering effect of the surface of single dye PDLC structure. The proposed process can also remove the randomly distributed dyes in polymer area of dye PDLC. This technique enhances the reflectance as well as the contrast ratio. more...

Published

2011

18. Optical property enhancement of dye-PDLC using active reflector structure

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Author

Gae Hwang Lee, Kyu Young Hwang, Muhammad Jamil, Farzana Ahmad, Jae Eun Jang, Young Jae Jeon, Jae Eun Jung, and Lee Jin Woo

Subjects

chemistry.chemical_classification, Materials science, Polymers and Plastics, business.industry, Reflector (antenna), General Chemistry, Polymer, Surfaces, Coatings and Films, Barrier layer, Optics, chemistry, Flexible display, Liquid crystal, Materials Chemistry, Optoelectronics, Contrast ratio, business, Absorption (electromagnetic radiation), Layer (electronics)

Abstract

The enhancement of electro-optical properties in reflective-type dye polymer dispersed liquid crystal (PDLC) has been achieved by applying an additional white PDLC layer along with dye PDLC layer. This newly modified structure that consists of white PDLC layer and scattering reflector acts as an active reflector. In this practice, an additional arrangement of a polymer barrier layer is made-up over white PDLC layer, to block the absorption of any solution from dye PDLC. The contrast ratio of this new configuration is almost doubled with low driving voltage and high ON reflectance. Simultaneously, the “off” state has been observed darker than single layer dye PDLC structure. This new configuration can be potentially significant for various display applications such as E-paper, outdoor billboard, and flexible display. © 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 more...

Published

2011

19. Ablative microstructuring with plasma-based XUV lasers and efficient processing of materials by dual action of XUV/NIR–VIS ultrashort pulses

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Author

Gae Hwang Lee, Bedřich Rus, SoonAe Park, Tomas Fort, Jaroslav Sobota, Chang Hee Nam, Taekeun Kim, Michaela Kozlova, Věra Hájková, Libor Juha, J. Hrebicek, Tomas Mocek, M. Sawicka, Krzysztof Jakubczak, Chul Min Kim, Jiri Polan, P. Homer, I. J. Kim, and Jaromir Chalupsky more...

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, business.industry, Plasma, Condensed Matter Physics, Laser, law.invention, X-ray laser, Optics, law, Extreme ultraviolet, Optoelectronics, High harmonic generation, General Materials Science, Charge carrier, business, Absorption (electromagnetic radiation), Lithography

Abstract

We report on a single-shot micropatterning of an organic polymer achieved by ablation with demagnifying projection using a plasma-based extreme ultraviolet (XUV) laser at 21 nm. A nickel mesh with a period of 100 μ m was 10×demagnified and imprinted on poly(methyl methacrylate) (PMMA) via direct ablation. This first demonstration of single-shot projection, single-step lithography illustrates the great potential of XUV lasers for the direct patterning of materials with a resolution scalable down to the submicrometer domain. In the second part, we present a novel experimental method for improving the efficiency of surface processing of various solids achieved by simultaneous action of XUV, obtained from high-order harmonic generation, and near-infrared (NIR)–VIS laser pulses. The NIR–VIS pulse interacts with free charge carriers produced by the energetic XUV photons, so that its absorption dramatically increases. Laser-induced periodic surface structures were effectively produced using this technique. more...

Published

2010

20. Organic-on-silicon complementary metal–oxide–semiconductor colour image sensors

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Author

Dong-Seok Leem, Xavier Bulliard, Chul-Joon Heo, Myung-Won Lee, Gae Hwang Lee, Tae-Yon Lee, Seon-Jeong Lim, Sang-chul Sul, Tadao Yagi, Takkyun Ro, Jung-kyu Jung, Kyung-Bae Park, Ryuichi Satoh, Moon Gyu Han, Yong Wan Jin, Im Dong-Mo, Kwang Hee Lee, Kyu-Sik Kim, Kyoung-won Na, and Sang Yoon Lee more...

Subjects

CMOS sensor, Multidisciplinary, Materials science, Pixel, Silicon, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, chemistry.chemical_element, Bioinformatics, Article, Photodiode, law.invention, Organic semiconductor, CMOS, chemistry, law, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, Image sensor, business, Absorption (electromagnetic radiation)

Abstract

Complementary metal–oxide–semiconductor (CMOS) colour image sensors are representative examples of light-detection devices. To achieve extremely high resolutions, the pixel sizes of the CMOS image sensors must be reduced to less than a micron, which in turn significantly limits the number of photons that can be captured by each pixel using silicon (Si)-based technology (i.e., this reduction in pixel size results in a loss of sensitivity). Here, we demonstrate a novel and efficient method of increasing the sensitivity and resolution of the CMOS image sensors by superposing an organic photodiode (OPD) onto a CMOS circuit with Si photodiodes, which consequently doubles the light-input surface area of each pixel. To realise this concept, we developed organic semiconductor materials with absorption properties selective to green light and successfully fabricated highly efficient green-light-sensitive OPDs without colour filters. We found that such a top light-receiving OPD, which is selective to specific green wavelengths, demonstrates great potential when combined with a newly designed Si-based CMOS circuit containing only blue and red colour filters. To demonstrate the effectiveness of this state-of-the-art hybrid colour image sensor, we acquired a real full-colour image using a camera that contained the organic-on-Si hybrid CMOS colour image sensor. more...

Published

2015

21. Efficient surface processing by ultrafast XUV/NIR dual action

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Author

Libor Juha, Tomas Mocek, Gae Hwang Lee, Taekeun Kim, Chang Hee Nam, Krzysztof Jakubczak, Laura Gemini, Bedřich Rus, Jaromir Chalupsky, M. Toufarová, Daniele Margarone, SoonAe Park, and Věra Hájková

Subjects

Laser ablation, Materials science, business.industry, chemistry.chemical_element, Laser, law.invention, Optics, Amorphous carbon, chemistry, law, Extreme ultraviolet, Femtosecond, Optoelectronics, Thin film, business, Ultrashort pulse, Carbon

Abstract

We have developed a novel method for efficient structuring of the surface of materials by applying femtosecond near infrared laser pulses simultaneously with a weak extreme ultraviolet beam, which leads to a very strong radiation-matter interaction and brings a dramatic increase of the surface processing speed. We present our recent experimental results on surface nanostructuring of thin films of amorphous carbon and polymethyl methacrylate deposited on bulk substrates and discuss the underlying physical mechanisms. In the case of amorphous carbon, large areas of laser-induced periodic surface structures with a spatial period of 550 nm were created, having their origin in laser-induced convective currents. Our method provides a powerful tool for fast modification of tribological properties of the irradiated sample. more...

Published

2011

22. Bright color optical switching device by polymer network liquid crystal with a specular reflector

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Author

Gae Hwang Lee, Yong Wan Jin, Jae Eun Jang, Sang Yoon Lee, Jae Eun Jung, and Kyu Young Hwang

Subjects

business.industry, Polymers, Color, Signal Processing, Computer-Assisted, SeaChanger Color Engine, Equipment Design, Color temperature, Atomic and Molecular Physics, and Optics, Liquid Crystals, Equipment Failure Analysis, Refractometry, Optics, Gamut, Color gel, Optoelectronics, Color filter array, Contrast ratio, Specular reflection, Chromaticity, business, Lenses

Abstract

The color optical switching device by polymer network liquid crystal (PNLC) with color filter on a specular reflector shows excellent performance; white reflectance of 22%, color gamut of 32%, and contrast ratio up to 50:1 in reflective mode measurement. The view-angle dependence of the reflectance can be adjusted by changing the PNLC thickness. The color chromaticity shown by the device is close to the limit value of color filters, and its value nearly remains with respect to the operating voltage. These optical properties of the device can be explained from the prediction based on multiple interactions between the light and the droplets of liquid crystal. The high reflectance, vivid color image, and moderate responds time allow the PNLC device to drive good color moving image. It can widely extend the applications of the reflective device. more...

Published

2011

23. Characteristics of color optical shutter with dye-doped polymer network liquid crystal

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Author

Jae Eun Jang, J.E. Jung, Suyoun Lee, Kyu-young Hwang, Gae Hwang Lee, and Y. W. Jin

Subjects

chemistry.chemical_classification, Materials science, business.industry, Scattering, Optical instrument, Physics::Optics, Polymer, Atomic and Molecular Physics, and Optics, Light scattering, law.invention, Condensed Matter::Soft Condensed Matter, Optics, chemistry, Liquid crystal, law, Shutter, Attenuation coefficient, Optoelectronics, business, Absorption (electromagnetic radiation)

Abstract

The optical properties and the theoretical prediction of color optical shutter with dye-doped polymer network liquid crystal (PNLC) were investigated. The view-angle dependence of reflectance according to the bias conditions showed distinctive characteristics, which could be explained from the effects of dye absorption and path length. It was also shown that the thickness dependence of reflectance was strongly influenced by the light-scattering coefficient. Our experimental results matched up well with the theoretical prediction based on the light scattering of liquid crystals in polymer network and the absorption of dichroic dye. This work indicates potential to improve the optical device using dye-doped liquid crystal-polymer composite. more...

Published

2011

24. Highly Efficient Surface Modification of Solids by Dual Action of XUV/Vis-NIR Laser Pulses

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Author

Gae Hwang Lee, Věra Hájková, Jaromír Chalupský, Jiri Polan, Krzysztof Jakubczak, P. Homer, I. J. Kim, Taekeun Kim, SoonAe Park, Chang Hee Nam, Chul Min Kim, Libor Juha, Tomas Mocek, and Bedřich Rus

Subjects

Materials science, business.industry, Radiation, Laser, Fluence, law.invention, Optics, Amorphous carbon, law, Extreme ultraviolet, Surface modification, High harmonic generation, Irradiation, business

Abstract

We demonstrate a novel experimental method for unusual structural surface modification of various solids (PMMA, amorphous carbon) achieved by simultaneous action of XUV (21.6 nm), obtained from high-order harmonic generation, and Vis-NIR (410/820 nm) laser pulses. Although the fluence of each individual pulse was far below the surface ablation threshold, very efficient and specific material expansion was observed after irradiation by a few shots of mixed XUV/Vis-NIR radiation. more...

Published

2009

25. Development of ultrafast soft x-ray beamline based on high-order harmonic generation at PALS

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Author

Dong Hyuk Ko, Chang Hee Nam, I Jong Kim, Krzysztof Jakubczak, Gae Hwang Lee, Bedrich Rus, Tomas Mocek, and Deuk Su Kim

Subjects

Materials science, business.industry, Holography, Nonlinear optics, Laser, law.invention, Interferometry, Optics, Beamline, law, Sapphire, High harmonic generation, business, Ultrashort pulse

Abstract

We report on the development of ultrafast coherent soft X-ray beamline at the Prague Asterix Laser System (PALS) Research Center intended for interdisciplinary applications such as ablation and controlled surface modification of solid materials for a micro/nano-patterning, soft X-ray interferometry and holography for surface probing with nanometric resolution, and improvement of focusing optics for soft X-ray beams. The beamline is based on 1 kHz, table-top, highorder harmonic generation (HHG) source capable of delivering fully coherent beam, tunable in the 13 - 40 nm spectral range. The Ti:sapphire (810 nm) laser pulses with a duration of 35 fs and energy 1.1 mJ are focused into a static gas cell containing conversion medium (Ar). To achieve highly efficient HHG at 30 nm we apply the technique of guided laser pulses. Experimental results on HHG source characterization, optimization, and spectral tunability are presented. Achievements on the implementation of so called two-color HHG using gas cell have been reported for the first time. The complete beamline will consist of a tandem of two vacuum chambers: one for the HHG source and its diagnostics, and second intended for the application experiments. The access to this new soft X-ray installation will be opened to external users since 2009. more...

Published

2008

26. Measurement of the polarization of high-order harmonics from aligned N(2) molecules by spatial interferometry

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Author

Tae Keun Kim, Chang Hee Nam, I Jong Kim, Seung Beom Park, and Gae Hwang Lee

Subjects

Physics, business.industry, Polarimetry, Optical polarization, Laser, Polarization (waves), Diatomic molecule, Atomic and Molecular Physics, and Optics, law.invention, Interferometry, Optics, law, Harmonics, High harmonic generation, business

Abstract

The polarization of high-harmonics from aligned N(2) molecules was measured by observing the visibility of spatial interference between two high-harmonics generated separately. The minimum visibility was observed at an angle of 60 degrees between the polarization of the harmonic generation laser field and the molecular orientation. In this case, the angular shift of harmonic polarization is 15 degrees from the molecular orientation. Our measurement of the visibility variation matches the theoretical prediction based on the harmonic field calculation for aligned N(2) molecules. more...

Published

2008

27. Control of rotational wave packets in field-free molecular alignment by chirped laser pulses

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Author

Chang Hee Nam, Yong Soo Lee, I Jong Kim, Seung Beom Park, and Gae Hwang Lee

Subjects

Physics, Field (physics), business.industry, Phase (waves), Physics::Optics, Laser, Signal, law.invention, Optics, law, Rotational wave, Harmonics, Physics::Atomic and Molecular Clusters, Chirp, Physics::Accelerator Physics, Physics::Atomic Physics, Molecular alignment, business, Nonlinear Sciences::Pattern Formation and Solitons

Abstract

We experimentally observed revival signals of high-order harmonics under field-free molecular alignment by applying chirp-free and chirped laser pulses. The revival signal obtained even with chirp-free laser pulses exhibited linearly dependant spectral phase with respect to frequency, and the slope of the spectral phase changed with the laser chirp condition. more...

Published

2007

28. Generation of Exceptionally Strong Harmonics from He in an Orthogonally Polarized Two-color Laser Field

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Author

Hyung Taek Kim, Chul Min Kim, I Jong Kim, Chang Hee Nam, and Gae Hwang Lee

Subjects

Physics, Field (physics), business.industry, Energy conversion efficiency, Electron, Laser, law.invention, Optics, law, Harmonics, Harmonic, High harmonic generation, business, Order of magnitude

Abstract

Highly efficient high-harmonic generation was achieved using a two-color laser field that consisted of the fundamental and its second harmonic. The harmonics generated in an orthogonally polarized two-color field were stronger than those obtained in the fundamental field by more than two orders of magnitude. Conversion efficiency as high as 5 × 10−5 was obtained for the 38th harmonic (21.6 nm) from helium driven by the two-color laser field with a proper relative phase. This enhancement is explained by analyzing the electron behavior in the two-color field. In addition, we confirmed the effects of mixed field by controlling the time delay between the two-color laser fields. more...

Published

2007

29. Generation of efficient high harmonics in an orthogonally polarized two-color laser field

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Author

Hyung Taek Kim, Yong Soo Lee, Ju Yun Park, Chang Hee Nam, Chul Min Kim, I Jong Kim, and Gae Hwang Lee

Subjects

Physics, business.industry, Energy conversion efficiency, Laser, Polarization (waves), law.invention, Optics, law, Harmonics, Femtosecond, Sapphire, Optoelectronics, High harmonic generation, business, Order of magnitude

Abstract

Highly efficient high-harmonic generation was achieved in helium using an orthogonally polarized two-color laser field that consisted of the fundamental and second harmonic of a femtosecond Ti:sapphire laser. By applying a higher intensity second harmonic, the harmonics in the two-color field were stronger than those obtained in the fundamental field by more than two orders of magnitude. The conversion efficiency was as high as 5/spl times/10/sup -5/ for the 38/sup th/ harmonic at 21.6 nm. more...

Published

2005

30. Highly Efficient High-Harmonic Generation in an Orthogonally Polarized Two-Color Laser Field

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Author

Yong Soo Lee, Chang Hee Nam, Ju Yun Park, David Jaeyun Cho, Chul Min Kim, Gae Hwang Lee, Hyung Taek Kim, and I Jong Kim

Subjects

Physics, business.industry, Energy conversion efficiency, General Physics and Astronomy, Electron, Laser, Polarization (waves), law.invention, Optics, law, Electric field, Harmonics, Femtosecond, High harmonic generation, Atomic physics, business

Abstract

Highly efficient high-harmonic generation was achieved in helium using a two-color laser field that consisted of the fundamental and the second harmonic fields of a femtosecond Ti:sapphire laser. By applying a high intensity second harmonic, the harmonics generated in the orthogonally polarized two-color field were stronger than those obtained in the fundamental field by more than 2 orders of magnitude, and even stronger than those of the parallel polarization case. A conversion efficiency as high as $5\ifmmode\times\else\texttimes\fi{}{10}^{\ensuremath{-}5}$ was obtained for the 38th harmonic at 21.6 nm. The physical origin of this enhancement was deduced by analyzing the electron behavior in the two-color field. more...

Published

2005

31. Enhancement of diffuse reflectance using air tunnel structure

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Author

SeungNam Cha, Gae Hwang Lee, Byoung Gwon Song, Jae Eun Jang, and Jae Eun Jung

Subjects

chemistry.chemical_classification, Total internal reflection, Fabrication, Materials science, Diffuse reflectance infrared fourier transform, business.industry, Scanning electron microscope, Polymer, Ray, Atomic and Molecular Physics, and Optics, Optics, chemistry, Optoelectronics, Diffuse reflection, business, Refractive index

Abstract

Submicrometer air gap structure has formed on diffuse reflection structure to improve light reflectance. Covering polymer or liquid on a diffuse reflector to make optical components induces the severe decrease of the total reflectance, since the diffuse reflected angle of some light rays is larger than the critical angle and the rays travel to the medium until meeting a proper small incident angle. The reflectance drops to 68% of the original value with just a polymer coating on the diffuse reflector. The formation of an air tunnel structure between the polymer layer and the diffuse reflector makes a symmetrical reflective index matching state and recovers 95% of the original reflectance. Due to the simple fabrication process and the chemical stability, the structure can be applied to various optical components and reflective display devices. more...

Published

2013

32. Color Polymer-Stabilized Liquid Crystal for the Optical Shutter with Fast Response Time

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Author

Kyu Young Hwang, Jae Eun Jung, Jae Eun Jang, Yong Wan Jin, Gae Hwang Lee, and Sang Yoon Lee

Subjects

chemistry.chemical_classification, Materials science, Physics and Astronomy (miscellaneous), business.industry, General Engineering, General Physics and Astronomy, Response time, Polymer, Shutter speed, Optics, chemistry, Liquid crystal, Flexible display, Shutter, Reflection (physics), Optoelectronics, Specular reflection, business

Abstract

A color-reflective optical shutter structure has been studied using polymer-stabilized liquid crystal (PSLC) devices with a specular reflector. The combined effect of an LC, a polymer, a color dye, and a specular reflector results in a high performance of a reflective-mode optical shutter as well as of a simple structure with a fast response time capable of smooth moving images. The reflectance is up to 40%, one of highest for reflective devices, whose response times are fast enough to provide video speed response ( more...

Published

2011

33. Enhanced surface structuring by ultrafast XUV/NIR dual action

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Author

Vera Hájková, Jaromir Chalupsky, Tomas Mocek, Libor Juha, M. Toufarová, Bedrich Rus, Krzysztof Jakubczak, Seung Beom Park, Tae Keun Kim, Chang Hee Nam, and Gae Hwang Lee

Subjects

Physics, business.industry, Energy conversion efficiency, General Physics and Astronomy, Laser, Spectral line, law.invention, Optics, Amorphous carbon, law, Extreme ultraviolet, Femtosecond, Optoelectronics, Thin film, business, Ultrashort pulse

Abstract

Materials processing utilizing ultrashort near-infrared (NIR) laser pulses with duration in the range of tens to hundreds of femtoseconds (1fs = 10 15 s) has attracted a great deal of interest in the scientific and industrial world recently. Unfortunately, a number of materials that often exhibit great technological and scientific importance are transparent in NIR, making it very difficult to process them by laser radiation in this spectral range. Here, we present a new method for the efficient structuring of the surface of materials by applying femtosecond NIR laser pulses simultaneously with a weak extreme ultraviolet (XUV) beam, which leads to very strong radiation-matter interaction, bringing a dramatic increase in the surface processing speed. A laser system providing 5mJ, 820nm, 32fs, 10Hz pulses was used to generate high-order harmonics with the strongest spectral line at 21nm and with a conversion efficiency of 5%. The two beams were focused on the samples by using an off-axis paraboloidal multilayer mirror. As an example, we present the results of the surface nanostructuring of thin films of amorphous carbon and poly(methyl methacrylate) deposited on bulk substrates. We discuss the physical mechanisms that lead to the laser-induced periodic surface structures when our method is used. more...

Published

2011

34. Alignment dependence of high harmonics contributed from HOMO and HOMO-1 orbitals of N2molecules

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Author

Tae Keun Kim, Yong Soo Lee, Gae Hwang Lee, Seung Beom Park, I Jong Kim, and Chang Hee Nam

Subjects

Physics, business.industry, Nonlinear optics, Condensed Matter Physics, Diatomic molecule, Molecular physics, Atomic and Molecular Physics, and Optics, Dipole, Optics, Atomic orbital, Harmonics, High harmonic generation, Molecular orbital, business, HOMO/LUMO

Abstract

Characteristics of high harmonics generated from aligned N2 molecules were investigated by rotating the molecules with respect to the polarization of harmonic generation pulses. The high harmonics in the plateau and the cutoff regions showed distinctive behaviour, which could be explained from the calculation of transition dipole moments between recolliding electron and multi-orbitals of N2 molecule consisting of the highest occupied molecular orbital (HOMO) and the lower-lying orbital below HOMO (HOMO-1). It was also observed that the angular dependence of harmonics from aligned molecules with respect to the polarization of harmonic generation pulses was closely related to the geometrical structure of molecular orbitals, and that the harmonic in the transition region from the plateau to the cutoff was influenced comparably by both HOMO and HOMO-1. These results confirmed that high harmonic generation and molecular structure were closely linked. more...

Published

2010

35. 40.4: The Research of Various Mode Color PDLC Structures for Flexible Reflective Display

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Author

Gae Hwang Lee, Yong Wan Jin, Jin Woo Lee, Jae Eun Jang, Young Jae Jeon, Jung Woo Kim, Sang Yun Lee, Jae Eun Jung, Kyu Young Hwang, and Byung Gon Song

Subjects

Optics, Subtractive color, Materials science, business.industry, Color vision, Shutter, Color gel, High color, RGB color model, Optoelectronics, Color filter array, business, Spectral color

Abstract

Various type color PDLC structures have been characterized on a glass and a plastic substrate for reflective mode color display. The standard PDLC and the black diachronic dye mixed PDLC structure with color filter (RGB) show a good black state with high color purity and 256 gray levels, even though both structures have a dark color images. Color dichroic dye (RGB/CMY) mixed PDLC cells promise a good white reflectance. The problem of using color dye system is the enhancement of a poor black state. Using new CMY color based filter with black dye PDLC shutter structure can improve a white state with a proper color vision. more...

Published

2010

36. Surface modification of organic polymer by dual action of extreme ultraviolet/visible-near infrared ultrashort pulses

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Author

Chang Hee Nam, Chul Min Kim, Bedřich Rus, Tomas Mocek, Věra Hájková, Jaromír Chalupský, Krzysztof Jakubczak, Jiri Polan, P. Homer, I. J. Kim, Libor Juha, and Gae Hwang Lee

Subjects

Materials science, Infrared, business.industry, General Physics and Astronomy, Laser, Fluence, law.invention, law, Extreme ultraviolet, Optoelectronics, Surface modification, Optical radiation, Irradiation, Absorption (electromagnetic radiation), business

Abstract

We present the experimental evidence of structural surface modifications of poly(methyl methacrylate) (PMMA) caused by simultaneous action of extreme ultraviolet (XUV) (∼21 nm) and visible-near infrared (visible-NIR) (820/410 nm) ultrashort pulses. Although the fluence of each individual beam was far below the surface modification threshold, very efficient and specific material expansion was observed after irradiation of PMMA by more than ∼20 shots of mixed XUV/visible-NIR radiation. As the XUV photons generate free charge carriers, absorption of the optical radiation dramatically increases, which heats up the material and further enhances the XUV induced damage to the polymer chain. more...

Published

2009

37. Generation of submicrojoule high harmonics using a long gas jet in a two-color laser field

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Author

Tomas Mocek, Gae Hwang Lee, I Jong Kim, Tae Keun Kim, Chang Hee Nam, Seung Beom Park, Krzysztof Jakubczak, and Yong Soo Lee

Subjects

Physics, Jet (fluid), Physics and Astronomy (miscellaneous), Field (physics), business.industry, Energy conversion efficiency, chemistry.chemical_element, Laser, law.invention, Optics, chemistry, law, Harmonics, Harmonic, High harmonic generation, business, Helium

Abstract

We have achieved very efficient high-harmonic generation in a two-color laser field using a long gas jet of He. With the optimization of laser parameters and target conditions, strong harmonics were produced at 2(2n+1)th orders in an orthogonally polarized two-color field. The strongest harmonic at the 38th order (21.6nm) reached an energy of 0.6μJ with a 6mm gas jet, giving a conversion efficiency as high as 2×10−4. more...

Published

2008