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"NOx"

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"NOx"

Fabrication of Fiber Gas Sensor and Analysis of NOx Gas Detection Characteristics
Ju Hyeong Son, Hyun Soo Kim, Young Ki Yoon, Kyung Uk Jang
J Electr Electron Mater 2019;32(5):432-436.   Published online September 1, 2019
In this study, we produced a light, flexible, wearable gas sensor by depositing MWCNTs (Multi-walled Carbon Nanotubes) into nylon. MWCNTs are widely used as a gas sensor material due to their excellent mechanical, electrical and physical characteristics. We produced a gas sensor to detect NOx gases by depositing nylon yarn in a MWCNT solution. The MWCNT solution was made by mixing 3 mg MWCNT in 5 ml of ethanol. Nylon yarn was placed in the manufactured solution and ultrasonic waves were applied using an ultrasonicator for 3 h, resulting in MCWNT deposition. The MWCNT-deposited nylon yarn was dried at room temperature for 24 h. The MWCNT-thin-film-coated nylon yarn was masked 1 mm apart, and gold was then deposited on the masked nylon yarn to create the gas sensor. The sensor then was installed in a chamber with a controlled atmospheric environment and exposed to NOx gas. The changing signal from the sensor was amplified to analyze its gas detection characteristics.
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HNS Detection Properties of Printed Ag:CNT Film as Liquid Sensor
Dongwan Ko, Junseck Choi, Sangtae Lee, Jiho Chang
J Electr Electron Mater 2019;32(3):223-228.   Published online May 1, 2019
We fabricated a printed Ag:CNT film as a liquid sensor for the detection of HNS (hazardous and noxious substances) in seawater. The paste required for printing was prepared using Ag powder, MWCNTs (multi-walled carbon nanotubes), and an organic binder. The heat treatment process for binder removal was optimized. In order to confirm that the sensor was operational, the resistance change characteristics in brine (3.5%) and methanol (99.8%) were assessed at 20℃. EDL (electrical double layer) formation and redox reactivity were confirmed as the most important reactions affect each electrical property of sensor in brine and methanol. From these results, it was determined that printed Ag:CNT film can be applied as a sensor to detect HNS in seawater.
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The Analysis of NOX Gas Detection Characteristics for the Gas Sensor Using the MWCNT/ZnO Composites Film
Hyun Soo Kim, Won Jae Lee, Yong Seo Park, Kyung Uk Jang
J Electr Electron Mater 2016;29(5):312-316.   Published online May 1, 2016
In this study, we fabricated NOX gas sensor by using multi-walled carbon nanotubes(MWCNT)/zinc oxide(ZnO) composite film. Carbon nanotubes (CNTs) have good electronic, chemical-stability, and sensitivity characteristics. And zinc oxide (ZnO) is a wide band gap and large exciton binding energy semiconductor. In particular, gas sensors require characteristics such as high speed, sensitivity, and selectivity. The fabricated gas sensor was used to detect NOX gas for different values of the NOX gas concentrations. The gas sensor that absorbed NOX gas molecules showed a increasing in resistance. The sensitivity of the gas sensor was increased by increasing the gas concentrations. Additionally, while changing the temperature inside the chamber for the MWCNT/ZnO composite film gas sensor, we obtained the sensitivity. And the comparison analysis to ZnO film gas sensor for detecting NOX gas. From the experiment result, we confirmed improvement of NOX gas detection characteristics using the MWCNT/ZnO composite film.
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Regular Paper : Absorption Rate Variation of TiNOx/Ti/Al Films Depending on N2 Gas Flow Rate
Jin Gyun Kim, Gun Eik Jang, Hyun Hoo Kim
J Electr Electron Mater 2015;28(2):75-79.   Published online February 1, 2015
Ti was deposited on the Al substrate using DC magnetron sputtering with changing the N2 gas for the possible application of a solar absorbing layer. N2 gas ranged from 50 to 75 sccm was systematically applied in the 5 sccm interval and the variation of the absorption rate was investigated. Microstructural examination and elemental analysis indicate that Ti was reacted with N2 gas and formed TiNOx compound. As compared with the film without any exposure of N2 gas, absorption rate improved by more than 20%. Typically the average absorption of TiNOx fim with 65% of N2 gas was about 99% in the visible range, and the average absorption was more than 90% in the infrared absorption region respectively.
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Regular Paper : Characteristic Analysis and Preparation of Multi-Layer TiNOx Thin Films for Solar-thermal Absorber
Dong Hyun Oh, Sang Uk Han, Hyun Hoo Kim, Gun Eik Jang, Yong Jun Lee
J Electr Electron Mater 2014;27(12):820-824.   Published online December 1, 2014
TiNOx multi-layer thin films on aluminum substrates were prepared by DC reactive magnetron sputtering method. 4 multi-layers of TiO2/TiNOx(LMVF)/TiNOx(HMVF)/Ti/substrate have been prepared with ratio of Ar and (N2+O2) gas mixture. TiO2 of top layer is anti-reflection layer on double TiNOx(LMVF)/TiNOx(HMVF) layers and Ti metal of infrared reflection layer. In this study, thecrystallinity and surface properties of TiNOx thin films were estimated by X-ray diffraction(XRD) and field emission scanning electron microscopy(FE-SEM), respectively. The grain size of TiNOx thin films shows to increase with increasing sputtering power. The composition of thin films has been investigated using electron probe microanalysis(EPMA). The optical properties with wavelength spectrum were recorded by UV-Vis-NIR spectrophotometry at a range of 200∼1,500 nm. The TiNOx multi-layer films show the excellent optical performance beyond 9% of reflectance in those ranges wavelength.
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Rcgular Paper : Technology Education ; NOx Gas Detection Characteristics of MWCNT Gas Sensor by Electrode Spacing Variation
Kyung Uk Jang, Hyun Soo Kim
J Electr Electron Mater 2014;27(10):668-672.   Published online October 1, 2014
Carbon nanotubes(CNT) has chemical stability and great sensitivity characteristics. In particular, the gassensor required characteristics such as rapid, selectivity and sensitivity sensor. Therefore, CNT are ideal materialsto gas sensor. So, we fabricated the NOx gas sensors of MOS-FET type using the MWCNT (multi-walled carbonnanotube). The fabricated sensor was used to detect the NOx gas for the variation of Vgs (gate-source voltage)and electrode changed electrode spacing=30, 60, 90[㎛]. The gas sensor absorbed with the NOx gas moleculesshowed the decrease of resistance, and the sensitivity of sensor was increased by magnification of electrodespacing. Furthermore, when the voltage(Vgs) was applied to the gas sensor, the decrease in resistance wasincreased. On the other hand, the sensor sensitivity for the injection of NOx gas was the highest value at theelectrode spacing 90[㎛]. We also obtained the adsorption energy(Vgs) using the Arrhenius plots by the reduction ofresistance due to the voltage variations. As a result, we obtained that the adsorption energy was increased withthe increment of the applied voltages.
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Technology Education : NOx Gas Detection Characterization with Vgs in the MWCNT Gas Sensor of MOS-FET Type
Hyun Soo Kim, Yong Seo Park, Kyung Uk Jang
J Electr Electron Mater 2014;27(4):257-261.   Published online April 1, 2014
Carbon nanotubes (CNT) has the excellent physical characteristics in the sensor, medicine, manufacturing and energy fields, and it has been studied in those fields for the several years. We fabricated the NOx gas sensors of MOS-FET type using the MWCNT. The fabricated sensor was used to detect the NOx gas for the variation of Vgs (gate-source voltage) with the ambient temperature. The gas sensor absorbed the NOx gas molecules showed the decrease of resistance, and the sensitivity of sensor was reduced by the NOx gas molecules accumulated on the MWCNT surface. Furthermore, when the voltage (Vgs) was applied to the gas sensor, the term of the decrease in resistance was increased. On the other hand, the sensor sensitivity for the injection of NOx gas was the highest value at the ambient temperature of 40℃. We also obtained the adsorption energy (Vgs)using the Arrhenius plots by the reduction of resistance due to the Vgs voltage variations. As a result, we obtained that the adsorption energy also was increased with the increasement of the applied Vgs voltages.
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Detection Characteristics for the Ultra Lean NOx Gas Concentration Using the MWCNT Gas Sensor Structured with MOS-FET
Hyun Soo Kim, Seung Hun Lee, Kyung Uk Jang
J Electr Electron Mater 2013;26(9):707-711.   Published online September 1, 2013
Carbon nanotubes(CNT) has strength and chemical stability, greatly conductivity characteristics. In particular, MWCNT (multi-walled carbon nanotubes) show rapidly resistance sensitive for changes in the ambient gas, and therefore they are ideal materials to gas sensor. So, we fabricated NOx gas sensors structured MOS-FET using MWCNT (multi-walled carbon nanotubes) material. We investigate the change resistance of NOx gas sensors based on MOS-FET with ultra lean NOx gas concentrations absorption. And NOx gas sensors show sensitivity on the change of gate-source voltage (V98 =0[V] or V98=3.5[V]). The gas sensors show the increase of sensitivity with increasing the temperature (largest value at 40℃). On the other hand, the sensitivity of sensors decreased with increasing of NOx gas concentration. In addition, We obtained the adsorption energy(Ua), Ua = 0.06714[eV] at the NOx gas concentration of 8[ppm], Ua = 0.06769[eV] at 16[ppm], Ua = 0.06847[eV] at 24[ppm] and Ua = 0.06842[eV] at 32[ppm], of NOx gas molecules concentration on the MWCNT gas sensors surface with using the Arrhenius plots. As a result, the saturation phenomena is occurred by NOx gas injection of concentration for 32[ppm].
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Technology Education : Regular Paper ; The Fabrication of FET-Type NOx Gas Sensing System Using the MWCNT
Kyung Uk Jang, Hyun Soo Kim
J Electr Electron Mater 2013;26(4):325-329.   Published online April 1, 2013
Carbon nanotubes(CNT) have excellent electrical, chemical stability and mechanical properties. These can be used in a variety of fields. MWCNT are extremely sensitive for minute changes in the ambient gas, namely, their sensing properties varies greatly with the absorption of gas such as NOx and H2. We investigate the electrical properties of CNTs and make a NOx gas sensor based on Multi-walled carbon nanotubes (MWCNT) materials. We obtained the NOx gas sensor of MWCNT based on P-type Si wafer that has the resistivity of 1.667×10-1 [Ω·cm]. We knew that the sensitivity of sensor decreased with increasing of NOx gas concentration. And the sensitivity of sensor shows the largest value at 20℃. The sensitivity of sensor decrease with increasing the temperature. Also absorption energy of NOx gas molecule on the MWCNT surface decreases with increasing concentration of NOx gas.
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New p-type Organic Semiconducting Materials for Organic Transistor
J Electr Electron Mater 2006;19(6):558-562.   Published online June 1, 2006
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High Voltage Engineering : Effect of Dielectrics on Nox Removal of Metal Particle-Al2O3 Barrier-Reactor
J. Y. Park, J. S. Kim, H. S. Goh, H. M. Kim, M. H. Bee
J Electr Electron Mater 2003;16(3):247-252.   Published online March 1, 2003
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