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"Resonance"

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"Resonance"

Controlled Synthesis of Colloidal Cu Nanowires and Nanoplates and Their Tunable Localized Surface Plasmon Resonances
Seokhwan Kim, Jong Wook Roh, Dong Choon Hyun, Seonhwa Park, Yuho Min
J Electr Electron Mater 2024;37(5):547-553.   Published online September 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.5.12
Precise control over the morphology of nanostructures is critical for tailoring their physical and chemical properties. This study addresses the challenge of developing a simple, integrated method for synthesizing both 1D and 2D colloidal Cu nanostructures in a single system, achieving successful tuning of their localized surface plasmon resonance (LSPR) properties. A facile hydrothermal synthesis utilizing potassium iodide (KI) and hexadecylamine (HDA) is presented for controlling Cu nanostructure morphologies. The key to achieving 1D nanowires (NWs) and 2D nanoplates (NPs) depends on the controlled adsorption of HDA molecules and iodide (I-) ions on specific crystal facets. Depending on the morphologies, the resultant Cu nanostructures exhibit tunable LSPR peaks from 558 nm [nanoplates (NPs)] to 590 nm [nanowires (NWs)]. These results pave the way for the scalable and cost-effective production of plasmonic Cu nanostructures with tunable optical properties, holding promise for applications in sensing, catalysis, and photonic devices.
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A Study on the Development of Induction Heating Mass Production System for Moisture Removal of Secondary Battery
Wangeun Ji, Sunghwan Kim, Haiyoung Jung, Seok-hyun Lee
J Electr Electron Mater 2023;36(1):42-48.   Published online January 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.1.7
In this study, an induction heating system using resonance is developed to remove remaining moisture and contaminations which could be generated during fabricating secondary batteries. This system is composed of power supply and induction coil. Power supply needs an oscillator, zero crossing detection, frequency tracking function, and induction coil needs a dummy coil to obtain a uniform temperature distribution. It is very important to obtain a uniform heating temperature distribution of battery cell case in the induction heating system before pouring electrolyte into battery cell. Experimental results show a temperature distribution deviation of below 1℃ in the external position of battery cell cases. As well, the temperature of battery cell itself shows distribution of 40℃±3℃.
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Demonstration of Magnetoelectric Coupling Measurement at Off-Resonance and Resonance Conditions in Magnetoelectric Composites
Deepak Rajaram Patil, Jungho Ryu
J Electr Electron Mater 2022;35(4):333-341.   Published online July 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.4.3
Magnetoelectric (ME) composites are comprised of magnetostrictive and piezoelectric phases. Lots of theoretical and experimental works have been done on ME composites in the last couple of decades. The output performance of ME composites has been enhanced by optimizing the constituent phases, interface layer, dimensions of the ME composites, different operating modes, etc. However, the detailed information about the characterization of ME coupling in ME composites is not provided yet. Therefore, in this tutorial paper, we are giving an insight into the details of measurements of ME voltage coefficient of ME composites both at off-resonance and resonance conditions. A symmetric type Gelfenol/PMN-PZT/Gelfenol ME composites were fabricated by sandwiching (011) 32-mode PMN-PZT single crystal between two Galfenol plates by epoxy bonding are used for the example of ME coupling measurement. The details about the experimental setup used for the measurement of ME voltage coefficient are provided. Furthermore, a step-by-step measurement of ME voltage coefficient using computerized program is demonstrated. We believe the present experimental measurement details can help readers to understand the concept of ME coupling and its analysis.
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Synthesis and Characterization of Au@TiO2 Core-Shell Microspheres
Sun-Geum Kim, Ha Jun Jang, Jaewon Jang, Jae-hyun Shim, Sung-june Baek
J Electr Electron Mater 2022;35(4):392-397.   Published online July 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.4.12
We present the structural and optical properties of Au@TiO2 core-shell microsphere structure prepared by a hydrothermal synthesis method. As a way to improve the efficiency of organic solar cells, the Au@TiO2 core-shell microsphere was synthesized to use the local surface plasmon resonance (LSPR) phenomenon. The synthesized results were confirmed to have the Au@TiO2 core-shell structure using a high-resolution transmission electron microscopy. An absorption was observed to occur at 527 nm belonging to the visible light region using a visible light spectroscopy, which supports the LSPR phenomenon. We suggest that the Au@TiO2 core-shell microsphere is highly likely to be applied to organic solar cells including dye-sensitized solar cells. In addition, we expect it to be widely used not only in the energy but also in the bio as well as in the environmental fields.
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Characteristics of Magnetoelectric Composite with Rosen Type Piezoelectric Transducer Structure
Sung Hoon Park, Woon-ha Yoon, Deepak Rajaram Patil, Jungho Ryu
J Electr Electron Mater 2021;34(6):480-486.   Published online November 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.6.13
Magnetoelectric (ME) composite is composed of a piezoelectric material and a magnetostrictive material. Among various ME structures, 2-2 type layered ME composites are anticipated to be used as high-sensitivity magnetic field sensors and energy harvesting devices especially operating at its resonance modes. Rosen type piezoelectric transducer using piezoelectric material is known to amplify a small electrical input voltage to a large electrical output voltage. The output voltage of these Rosen type piezoelectric transducers can be further enhanced by modifying them into ME composite structures. Herein, we fabricated Rosen type ME composites by sandwiching Rosen type PMN-PZT single crystal between two Ni layers and studied their ME coupling. However, the voltage step-up ratio at the resonance frequency was found to be smaller than the value calculated with αME value. The ATILA FEA (Finite Elements Analysis) simulation results showed that the position of the nodal point was changed with the presence of a magnetostrictive layer. Thus, while designing a Rosen type ME composite with high performance in a resonant driving situation, it is necessary to optimize the position of the nodal point by optimizing the thickness or length of the magnetostrictive layer.
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Microwave Dielectric Properties of Ultra-Low Temperature Co-firable Ba3V4O13-BaV2O6 Ceramics
Sang-ok Yoon, Seoyoung Hong, Hyung-hwan Cho, Shin Kim
J Electr Electron Mater 2021;34(5):342-347.   Published online September 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.5.11
Phase evolution, sintering behavior, microstructure, and microwave dielectric properties of (1-x) mol Ba3V4O13 - (x) mol BaV2O6 system were investigated. The sintered specimens of all compositions consisted of Ba3V4O13 and BaV2O6, and no secondary phase was observed. As x increased, the linear shrinkage decreased to the composition of x=0.5, and then increased again, implying that Ba3V4O13 and BaV2O6 phases interfered mutually with each other during sintering. All compositions showed a dense microstructure with a large grain growth. Cracks were observed in some compositions because of the relatively high sintering temperature of 620~640℃. As x increased, the dielectric constant increased, while the quality factor was maintained from about 50,000 GHz to about 70,000 GHz up to the composition of x=0.9, and then decreased to 20,987~27,180 GHz at the composition of x=1.0. As x increased, the temperature coefficient of the resonance frequency showed a (+) value from a (-) value. The dielectric constant, the quality factor, and the temperature coefficient of resonant frequency of x=0.7 composition sintered at 640℃ for 4 hours were 10.61, 71,126 GHz, and -4.9 ppm/℃, respectively. This composition showed a good chemical compatibility with Al powder, indicating that the Ba3V4O13-BaV2O6 ceramics are a candidate material for ULTCC (Ultra-Low Temperature Co-fired Ceramics) applications.
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Affected Enhance of Dye-Sensitized Solar Cells Using Silver Nanoparticle
Haeng Yun Jung, Kyung Jin Hong
J Electr Electron Mater 2018;31(1):34-39.   Published online January 1, 2018
In this study, e-beam equipment was used to form silver nanoparticles on thin films of TiO2 to increase the efficiency of dye-sensitized solar cells and improve the annealing process. TiO2 thin films with nanoparticle photoelectrodes were fabricated in individual units for use in dye-sensitized solar cells. The characteristics of dye-sensitized solar cells were compared to those of the prepared TiO2 photoelectrode with and without nanoparticles. The dye-sensitized solar cells with silver nanoparticles showed a significant increase in the electric current density compared with the pure TiO2 dye-sensitized solar cell and improved the solar conversion efficiency to 27.89%. The increased density of electric current increased the extent of light absorption of the dye owing to the plasmon resonance of the nanoparticles at the local surfaces. This phenomenon led to increased light scattering, which in turn increased the current density of the dye-sensitized solar cells and improved the solar conversion efficiency.
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Development of Real-time Heart Rate Measurement Device Using Wireless Pressure Sensor
Sang Dong Choi, Sung Hwan Cho, Yeun Ho Joung
J Electr Electron Mater 2016;29(5):284-288.   Published online May 1, 2016
Among the various physiological information that could be obtained from human body, heartbeat rate is a commonly used vital sign in the clinical milieu. Photoplethysography (PPG) sensor is incorporated into many wearable healthcare devices because of its advantages such as simplicity of hardware structure and low-cost. However, healthcare device employing PPG sensor has been issued in susceptibility of light and motion artifact. In this paper, to develop the real-time heart rate measurement device that is less sensitive to the external noises, we have fabricated an ultra-small wireless LC resonant pressure sensor by MEMS process. After performance evaluation in linearity and repeatability of the MEMS pressure sensor, heartbeat waveform and rate on radial artery were obtained by using resonant frequency-pressure conversion method. The measured data using the proposed heartbeat rate measurement system was validated by comparing it with the data of an commercialized heart rate measurement device. Result of the proposed device was agreed well to that of the commercialized device. The obtained real time heartbeat wave and rate were displayed on personal mobile system by bluetooth communication.
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Regular Paper : Optical Characteristics of Plasmonic Nano-structure Using Polystyrene Nano-beads
Doo Gun Kim, Byung Gue Jung, Hong Seung Kim, Tae Ryong Kim, Seon Hoon Kim, Hyun Chul Ki, Tae Un Kim, Jae Cheol Shin, Young Wan Choi
J Electr Electron Mater 2015;28(4):244-248.   Published online April 1, 2015
We proposed and demonstrated the double layered metallic nano-hole structure using polystyrene beads process to enhance the sensitivity of surface plasmon resonance (SPR). The double layered SPR structures are calculated using the finite-difference time-domain (FDTD) method for the width, thickness, and period of the metallic nano-hole structures. The thickness of the metal film and the metallic nano-hole is 30 and 20 nm in the 214 nm wide nano-hole size, respectively. The double layered SPR structures are fabricated with monolayer polystyrene beads of 420 nm wide. The sensitivities of the conventional SPR sensor and the double layered SPR sensor are obtained to 42.2 and 52.1 degree/RIU, respectively.
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Display and Optical Devices : Optical Characteristics of Plamonic Waveguide Using Tapered Structure
Doo Gun Kim, Hong Seung Kim, Geum Yoon Oh, Seon Hoon Kim, Hyun Chul Ki, Tae Un Kim, Hwe Jong Kim, Ping Ma, Christian Hafner, Young Wan Choi
J Electr Electron Mater 2014;27(3):156-161.   Published online March 1, 2014
We have investigated the optical properties of plamonic waveguide with tapered structure based on InP material for photonic integrated circuit(PIC). The proposed plasmonic waveguide is covered with the Ag thin film to generate the plasmonic wave on metallic interface. The optical characteristics of plasmonic waveguide were calculated using the three-dimensional finite-difference time-domain method. The plasmonic waveguide was fabricated with the lengths of 2 to 10 μm and the widths of 400 to 700 nm, respectively. The plasmonic mode and optical loss were measured. The optimum plasmonic length is 10 μm and widths are 600 and 700 nm in the fabricated waveguide. This plasmonic waveguide can be directly integrated with other conventional optical devices and can be essential building blocks of PIC.
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Light Source and Application Technology : Measurement of Optical Properties of a Liquid Based on a Side-polished Optical Fiber
Hyun Jin Lee, Kwang Taek Kim
J Electr Electron Mater 2014;27(3):195-198.   Published online March 1, 2014
In this paper, a measurement method to obtain the optical properties of a liquid base on a side-polished single mode fiber was proposed and demonstrated. The device showed periodic resonance coupling against wavelengths. The refractive index and dispersion characteristics of a liquid were calculated by use of the spacings of periodic resonance wavelengths of the device. The thermo-optic coefficient of the liquid was obtained by monitering the shift of resonance wavelengths of the devices with change of environmental temperature.
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Energy Materials : A Study on the Fabrication and Characterization of Micro Pb(Zr,Ti)O3Film Piezoelectric Cantilever Using MEMS Process for Energy Harvesting
Jun Myung Lee, In Woo Chun, Moon Keun Kim, Kwang Ho Kwon, Hyun Woo Lee
J Electr Electron Mater 2013;26(11):831-835.   Published online November 1, 2013
In this study, we fabricated a micro Pb(Zr,Ti)O3 (PZT) film piezoelectric cantilever with a Si proof mass and dual beams through MEMS process. The size of the beam and the integrated Si proof mass were about 4,320 μm × 290 μm × 12 μm and 1,380 μm × 880 μm × 450 μm each. To reduce the air damping and have the larger displacement of dual beams was used for design. After mounting micro PZT film piezoelectric cantilever on shaker, we measured the resonance frequency and a output voltage while making resonant frequency changed. The resonant frequency and the highest average power of the cantilever device were 110.2 Hz and 0.36 μW each, at 0.8 g acceleration and 23.7 kΩ load resistance,respectively.
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Thin Films and Sensors : Characteristics Analysis of Total Internal Reflection-based Dielectric Multi-Layer Sensor Using Plasmonics Phenomena
Hong Seung Kim, Tae Kyeong Lee, Doo Gun Kim, You Ra Jung, Geum Yoon Oh, Byeong Hyeon Lee, Hyun Chul Ki, Young Wan Choi
J Electr Electron Mater 2012;25(7):516-520.   Published online July 1, 2012
In this paper, we have theoretically analyzed and designed a dielectric multi-layer sensor with a SPR (surface plasmon resonance) using analytical calculation and FDTD (finite difference time-domain) methods. The proposed structure is composed of periodic layer and thin metal film. It has many advantages. One of that is a high sensitivity of the SPR. Another is a high Q-factor of the characteristics in the PhC (photonic crystals) micro-cavity structure. The incident light has double resonance characteristics, because the filtered light by PhC structure, dielectric multi-layer, is met the thin metal film for SPR effect. We have also observed the change of resonance characteristics according to the variation of effective index on the metal film.
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Fabrication of Nickel-based Piezoelectric Energy Harvester from Ambient Vibration with Micromachining Technology
Doo Yeol Cha, Jai Hyuk Lee, Sung Pil Chang
J Electr Electron Mater 2012;25(1):62-67.   Published online January 1, 2012
Owing to the rapid growth of mobile and electronic equipment miniaturization technology, the supply of micro mobile computing machine has been fast raised. Accordingly they have performed many researches on energy harvesting technology to provide promising power supply equipment to substitute existing batteries. In this paper, in order to have low resonance frequency for piezoelectric energy harvester, we have tried to make it larger than before by adopting nickel that has much higher density than silicon. We have applied it for our energy harvesting actuator instead of the existing silicon based actuator. Through such new concept and approach, we have designed energy harvesting device and made it personally by making with micromachining process. The energy harvester structure has a cantilever type and has a dimension of 10×2.5×0.1 mm3 for length, width and thickness respectively. Its electrode type is formed by using Au/Ti of interdigitate d33 mode. The pattern size and gap size is 50 μm. Based on the measurement of the nickel-based piezoelectric energy harvester, it is found to have 778 Hz for a resonant frequency with no proof mass. In that resonance frequency we could get a maximum output power of 76 μW at 4.8 MΩ being applied with 1 g acceleration.
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Energy Materials : A Study on Energy Harvester with Cantilever Structure Using PZT Piezoelectric Material
Doo Yeol Cha, Soo Jin Lee, Sung Pil Chang
J Electr Electron Mater 2011;24(5):416-421.   Published online May 1, 2011
Nowadays, the increasing demands upon mobile devices such as wireless sensor networks and the recent advent of low power electrical devices such as MEMS make such renewable power sources attractive. A vibration-driven MEMS lead zirconate titanate Pb(Zr,Ti)O3 (PZT) cantilever device is developed for energy harvesting application. This paper presents a piezoelectric based energy harvester which is suitable for power generating from conventional vibration and has in providing energy for low power electronic devices. The PZT cantilever is used d33 mode to get the electrical power. The PZT cantilever based energy harvester with the dimension of 7 mm×3 mm×0.03 mm is fabricated using micromachining technologies. This PZT cantilever has the mechanical resonance frequency with a 900 Hz. With these conditions, we get experimentally the 37 uW output power from this device with the application of 1g acceleration using the 900 Hz vibration. From this study, we show the feasibility of one of energy harvesting candidates using PZT based structure. This PZT energy harvester could be used for various applications such a batteryless micro sensors and micro power generators.
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Regular Paper : Design and Evaluation of Osseointegration Analysis System for Dental Implant
Joo Hee Lee, Chang Il Kim, Jong Hoo Paik, Jeong Ho Cho, Myoung Pyo Chun, Young Hun Jeong, Young Jin Lee, Jeong Bae Lee, Seung Dae Lee
J Electr Electron Mater 2011;24(3):188-193.   Published online March 1, 2011
The osseointegration of dental implant is influenced by many factors such as surface geometry, loading and the amount of bone. Thus, stability of the dental implant should be checked periodically. In order to test the stability of dental implant by using resonance frequency analysis, we designed a structure of transducers and fabricated a piezoelectric devices. Using finite element analysis, the thickness and length of piezoelectric device and transducers were tailorized and the optimized frequency of 10 kHz was obtained. The resonance frequency from simulation analysis and evaluation was estimated to be similar as 10 kHz. The osseointegration was further enhanced with increasing frequency from the evaluation result of the finite element analysis.
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Electrical Properties of Multilayer Actuator Structured-ultrasonic Nozzle Driving System using a Resonant Inverter
J Electr Electron Mater 2007;20(11):953-958.   Published online November 1, 2007
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Resonant Frequency Modulation of High Temperature Superconductors Subjected to Optical Pulse Energy and Temperature
J Electr Electron Mater 2005;18(11):1061-1067.   Published online November 1, 2005
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Improving Thermal Resisting Property of PZT Ceramics by Thermal Aging
J Electr Electron Mater 2005;18(1):43-49.   Published online January 1, 2005
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Measurement of all the Elastic, Dielectric and Piezoelectric Properties of PMN-PT Single Crystals
Sang Han Lee, Su Seong Lee, Yong Lae No, Ho Yong Lee, Jin Ho Han
J Electr Electron Mater 2004;17(1):31-38.   Published online January 1, 2004
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Electrical Characteristics of Disk-type Piezoelectric Transformer Poled with the Same Direction
Jong Pil Lee, Jin Ung Hong
J Electr Electron Mater 2003;16(8):688-692.   Published online August 1, 2003
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Bidirectional Motion of the Windmill Type Ultrasonic Linear Motor
Jae Hyun Lee, Tae Gone Park, Yeong Ho Jeong
J Electr Electron Mater 2003;16(6):484-489.   Published online June 1, 2003
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Microwave Dielectric Properties of (1-x)ZnWO4-xTiO2 Ceramics
Sang Ok Yoon, Dai Min Kim, Sang Heung Shim, Ki Sung Kang
J Electr Electron Mater 2003;16(5):397-403.   Published online May 1, 2003
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Structure and Electrical Properties of Ba0.8Sr0.2[Mg1/3(Nb1-xTax)2/3]O3 Ceramics
J Electr Electron Mater 1999;12(4):305-311.   Published online April 1, 1999
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