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Investigation of PAN-based Nanofiber Air Filters for Effective Carbon Dioxide Adsorption
Haebin Park, Jungwoo Hong, Soyoung Moon, Taejoon Lee, Dongwon Kang, Kyungtaek Min
J Electr Electron Mater 2026;39(1):88-93.   Published online January 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.1.11
The continuous rise of atmospheric carbon dioxide (CO₂) emissions highlights the urgent need for sustainable air purification technologies. Current Direct Air Capture (DAC) filters often rely on toxic amines, which limit long-term stability and safe application. Here, we report a non-toxic PAN-based nanofiber air filter fabricated by electrospinning and urea-assisted carbonization. Structural analyses confirmed the introduction of nitrogen functionalities that enhanced CO₂ affinity, while SEM and FT-IR revealed graphitic carbon formation. In air-chamber tests, the optimized carbonized nanofiber reduced CO₂ concentration from 25,000 ppm to 2,000 ppm, a level generally regarded as acceptable for indoor environments, while simultaneously removing over 95% of PM10, PM2.5, and PM0.1 particulates. This dual functionality, combined with facile fabrication and material safety, demonstrates strong potential for PAN-derived carbon nanofiber membranes in DAC systems and eco-friendly air purification devices. These findings suggest a viable pathway toward scalable, sustainable air-filter technologies for carbon-neutral applications.
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Van der Waals Integration of Dielectrics and Metal Contacts with Two-Dimensional Semiconductors for Emerging Nanoelectronics
Dahyeon Park, Habin Baek, Changjun Park, Chanho Lee, Joonki Suh
J Electr Electron Mater 2025;38(3):233-246.   Published online May 1, 2025
DOI: https://doi.org/10.4313/JKEM.2025.38.3.1
In parallel with the efforts to improve the device performance in modern integrated circuits, it is necessary to downscale their core components, field-effect transistors (FETs), generally gauged by their physical gate length. Upon such device scaling, the emergence of the short-channel effect impedes further scaling into the nanometer scale in the silicon VLSI (Very-Large-Scale-Integration) system. To address this issue, two-dimensional (2D) semiconductors, leveraging their atomically thin thickness and dangling-bond-free characteristics, are being highlighted as a material solution for future scaling technology without severe mobility degradation. Despite the expected ideal physical properties, 2D semiconductors have yet to realize their full potential owing to the limited development of integration technology. In this context, we survey and review the tailored van der Waals integration technologies for 2D FETs. In particular, we provide an in-depth study of both van der Waals integrated contact and dielectric methods along with an explanation of customized materials. In essence, this van der Waals integrationcentered approach will be a core strategy to implement the high-performance 2D transistors that meet the demand of FET miniaturization.
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Analysis of Conductivity Variation and Conduction Mechanism in Bulk NiO Based on Sintering Conditions
Ju-hyeon Lee, Tae-soo Yeo, Wook Jo
J Electr Electron Mater 2023;36(4):418-421.   Published online July 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.4.15
Multilayer Ceramic Capacitors (MLCCs) are essential passive components in the electronics industry, known for their high capacitance due to the multilayer structure comprising inner electrodes and dielectric layers. Nickel electrodes are commonly used in MLCCs as the inner electrodes, and to prevent oxidation during the co-firing of the dielectric layers with nickel electrodes, reducing atmosphere is required. However, reducing atmosphere sintering can also induce a reduction of the dielectric, necessitating precise control of oxygen partial pressure. To explore the possibility of using oxide electrodes that do not require reducing atmosphere sintering, we analyze the electrical properties of nickel oxide (NiO) as a potential candidate. As a preliminary study on its use as an alternative inner electrode, the correlation between microstructure and electrical properties of bulk NiO under different sintering conditions was investigated to gain insights into the conduction mechanisms of the material.
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Fabrication of the Bulk Superconductor by Thermal Diffusion Process
Sang Heon Lee
J Electr Electron Mater 2021;34(6):461-465.   Published online November 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.6.10
A diffusion heat treatment process for YBa2Cu3O7-y bulk superconductor in a Gd2O3 powder was attempted. As a result of measuring the critical temperature of the superconducting bulk, there was no change in the superconducting transition temperature as the Gd particles diffused into the YBa2Cu3O7-y lattice, resulting in dense microstructure. As a result of measuring the critical current, the critical current density (Jc) of the superconducting bulk having treated by the Gd thermal diffusion treatment at 0 T increased to 3×104 A/㎠ at 0 T, which was higher than that of the superconducting bulk without thermal diffusion treatment. The surface magnetic force of the superconducting bulk with Gd thermal diffusion treatment was observed at the center of the superconducting bulk with the maximum trapped magnetic force (Hmax) of 1.51 kG. This result means that the Gd thermal diffusion treatment contributes to improving the critical current density Jc of YBa2Cu3O7-y, and it is believed that Gd particles migrating into the superconducting bulk through thermal diffusion either fill the surface pores of YBa2Cu3O7-y superconductors or act as a flux pinning center.
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Characterization and Synthesis of BN Fibers According to the Content of BN Nanopowder by Electrospinning Method
Jong Hyeok Lee, Myoung Pyo Chun, Jin Ah Hwang, Young Geun Jung, Jae Uk Chu
J Electr Electron Mater 2018;31(7):455-461.   Published online November 1, 2018
Boron nitride (BN) nanofibers were fabricated using BN nanoparticles (70 nm) by electrospinning. Morphologies such as the diameter and density of the BN nanofibers are strongly influenced by the viscosity and dispersion state of the precursor solution. In this study, the precursor solution was prepared by ball milling BN nanoparticles and polyvinylpyrrolidone (PVP, Mw~1,300,000) in ethanol, which was electrospun and then calcined to produce BN fibers. High-quality BN nanofibers were well fabricated at a BN concentration of 15 wt% with their diameters in the range of 500 nm to 800 nm; the viscosity of the precursor solution was 400 mPa·S. The calcination of the as-electrospun BN fibers seemed to be completed by holding them at 350℃ for 2 h considering the TGA data. The morphologies and phases of the BN fibers were investigated by scanning electron microscopy (SEM) and X-ray diffractometry (XRD), respectively; Fourier transform infrared (FT-IR) was also used for structure analysis.
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Control of Microstructure on TiO2 Nanofibers for Photocatalytic Application
Chang-gyu Lee, Wan-tae Kim, Kyeong-han Na, Dong-cheol Park, Wan-hee Yang, Won-youl Choi
J Electr Electron Mater 2018;31(6):417-421.   Published online September 1, 2018
TiO2 has excellent photocatalytic properties and several studies have reported the increase in its specific surface area. The structure of TiO2 nanofibers indicates promising improved photocatalytic properties and these nanofibers can thus potentially be applied in air pollution sensors and pollutant removal filters. In this study, a TiO2 nanofiber was fabricated by the electrospinning method. The fabrication processing factors such as the applied voltage, the distance between nozzle and collector, and the inflow rate of solution were controlled. The precursor was titanium (Ⅳ) isopropoxide and as-spun TiO2 nanofibers were heated at 450℃ for 2 h to obtain an anatase crystalline structure. The microstructure was analyzed using field emission scanning electron microscope (FE-SEM) and X-ray diffraction analysis (XRD). The anatase phase was observed in the TiO2 nanofibers after heat treatment. The diameter of TiO2 nanofibers increased with the flow rate, but decreased with decreasing applied voltage and nozzle to collector distance. The diameter of TiO2 nanofibers was controlled in the range of 364 nm to 660 nm. These nanofibers are expected to be very useful in photocatalytic applications.
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Electrical Property of Electrospun PCL/MWCNTs Nanofiber with Additive Silver Thin Film
Jin Un Kim, Kyong Min Kim, Kyoung Wan Park, Jung Hyun Sok
J Electr Electron Mater 2018;31(4):238-243.   Published online May 1, 2018
A nanofiber was fabricated with carbon nanotubes for transparent electrodes. It was prepared with a composite solution of bio-molecules polycaprolactone (PCL) and multiwalled carbon nanotubes (MWCNTs) by electrospinning on a glass substrate, following which its electrical characteristics were investigated. The content of MWCNTs was varied during electrospinning, while that of PCL was fixed. Further, a nanometer-thick thin film of silver was deposited on the nanofiber layer using a thermal evaporator to improve the electrical characteristics; the sheet resistance significantly reduced after this deposition. The results showed that this carbon nanotube nanofiber has potential applications in biotechnology and as a flexible transparent display material.
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Synthesis and Characterization of Fiberous AlN by Electrospinning
Seung-yeop Chun, Jin-ah Hwang, Jae-uk Chu, Myoung-pyo Chun
J Electr Electron Mater 2017;30(7):441-446.   Published online July 1, 2017
Aluminum nitride fibers were synthesized by carbothermal reduction and nitridation of precursor fibers obtained by electrospinning. The starting materials used to synthesize the AlN fibers were Al(NO3)3·9H2O and urea. Polyvinylpyrrolidone with increasing viscidity was used as the carbon source to obtain a composite solution. The mixed solution was drawn into a plastic syringe with a stainless steel needle, which was used as the spinneret and connected to a 20 kV power supply. A high voltage was supplied to the solution to facilitate the formation of a dense net of fibers on the collector. The precursor fibers were dried at 100℃ and then heated to 1,400℃ for 1 h in a microwave furnace under N2 gas flow for the carbothermal reduction and nitridation. X-ray diffraction studies indicated that the synthesized fibers consisted of the AlN phase. Field emission scanning electron microscopy studies indicated that the diameter of the calcined fibers was approximately 100 nm.
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Highly Sensitive Gas Sensors Based on Electrospun Indium Oxide Nanofibers for Indoor Toxic CO and HCHO Gases
Dong-ha Im, Sung-hwan Hwang, Se-hun Kwon, Hyunsung Jung
J Electr Electron Mater 2016;29(12):803-808.   Published online December 1, 2016
In this work, one dimension In2O3 nanostructures as detecting materials for indoor toxic gases were synthesized by an electrospinning process. The morphology of electrospun In2O3 nanofibers was controlled by electrolyte composition, applied voltage and working distance between a nozzle and a substrate. The synthesized In2O3 nanofibers-based paste with/without carbon black additives was prepared for the integration on a sensor device. The integration of In2O3 sensing materials was conducted by a hand-printing of the paste into the interdigit Au electrodes patterned on Si wafer. Gas sensing properties on CO and HCHO gases were characterized at 300℃. The evaluated sensing properties such as sensitivity, response time and recovery time were improved in In2O3 nanofiber pastes with carbon black, compared to the paste without carbon black.
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Regular Paper : Electromagnetic Properties of Nano Composite Conductor
Sang-heon Lee
J Electr Electron Mater 2016;29(2):106-109.   Published online February 1, 2016
The YBaCuO superconducting bulks were prepared by the thermal diffusion process involving the peritectic reaction to investigate the effect on microstructure and superconductivity. All the diffused YBaCuO could be successively separated from superconducting 123 phase by applying the thermal diffusion process. Electromagnetic properties of treated and untreated YBaCuO superconductor were evaluated to investigate the pinning effect. It was confirmed experimentally that a large amount of magnetic flux was trapped in the thermal treated superconducting bulk than that in the untreated one, indicating that the pinning centers of magnetic flux are related closely to the occurrence mechanism of the magnetic effect.
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Technology Education : Analysis of the Inner Degradation Pattern by Clustering Algorism at Distribution Line
Woon Shik Choi, Jin Sa Kim
J Electr Electron Mater 2016;29(1):58-61.   Published online January 1, 2016
Degradation in power cables used in distribution lines to the material of the wire, manufacturing method, but also the line of the environment, generates a variety of degradation depending upon the type of load. The local wire deterioration weighted wire breakage accident can occur frequently, causing significant proprietary damage can lead to accidents and precious. In this study, the signal detected by the eddy current aim to develop algorithms capable of determining the signals for the top part and at least part of the signal by using a signal processing technique called K-means algorithm.
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Regular Paper : Fabrication and Characterization of a Thermoelectric pn Couple Made of Electrospun Oxide Nanofibers
Dong Hoon Lee, Kyoung Ah Cho, Jin Young Choi, Sang Sig Kim
J Electr Electron Mater 2015;28(4):252-256.   Published online April 1, 2015
In this study, we propose a novel fabrication of an oxide-based lateral thermoelectric pn couple and investigate the characteristics of the thermoelectric couple. Electrospun ZnO and LaSrCoO3 nanofibers are used as n- and p-legs of the couple, respectively. The Seebeck coefficients of the n- and p-type nanofibers and the pn couple are -98.1 μV/K, 42.4 μV/K, and 118.8 μV/K, respectively. The thermoelectric couple generates an output voltage of 484.7 μV at a temperature difference of 4.1 K.
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From UV irradiation, we achieved homeotropic liquid crystal alignment on blended photo-polymer layer which is composed of polyvinyl-cinnamate (PVCi) and homeotropic polyimide (PI). From vertical alignment (VA) mode, we measured threshold voltages by various PVCi doping concentration. Also, the rise time and fall time of VA cells were measured to verify the best doping concentration. Transmittance curves showed about 70% value between 380 nm and 780 nm wavelength which mean visible region.
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Thin Films and Sensors : Synthesis of Metal Oxide Semiconductor Nanostructures and Their Gas Sensing Properties
Jong Heun Lee, Kwon Il Choi
J Electr Electron Mater 2012;25(8):632-638.   Published online August 1, 2012
The prepartion of various metal oxide nanostructures via hydrothermal method, hydrolysis, thermal evaporation and electrospinning and their applications to chemoresistive sensors have been investigated. Hierarchical and hollow nanostructures prepared by hydrothermal method and hydrolysis showed the high response and fast responding kinetics on account of their high gas accessibility. Thermal evaporation and electrospinning provide the facile routes to prepare catalyst-loaded oxide nanowires and nanofibers, respectively. The loading of noble metal and metal oxide catalyst were effective to achieve rapid response/recovery and selective gas detection.
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Energy Materials : Synthesis and Electrochemical Properties of Li[Ni⅓Co⅓Mn⅓]O2 Nanowire by the Electrospinning Method
Chung Soo Kang, Jong Tae Son
J Electr Electron Mater 2011;24(10):850-854.   Published online October 1, 2011
Nano-fibers of the Li[Ni1/3Co1/3Mn1/3]O2 electrode were synthesized from a metal oxide precursor using the electrospun method. The XRD patterns of all prepared powders showed a hexagonal α- NaFeO2 structure (space group: R-3 m, 166). Scanning electron microscopy showed that all the synthesized samples were comprised of nanofibers with a size of 100~800 nm. Among the samples tested, the calcined Li[Ni1/3Co1/3Mn1/3]O2 nanowires in oxygen heating atmosphere showed a high charge and discharge capacity of 239.22 and 172.81 mAhg-1 at the 1st cycle, respectively. In addition, the charge transfer resistance was also improved significantly compared to the other samples.
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Displacement Characteristics of the Square-frame Ultrasonic Motor
Jong Wook Kim, Choong Hyo Park, Jung Hoon Lim, Seong Su Jeong, Myong Ho Kim, Tae Gone Park
J Electr Electron Mater 2011;24(9):733-738.   Published online September 1, 2011
A novel design of a simple square-frame USM (ultrasonic motor) was proposed. The stator of the motor consists of a square-frame shape elastic body and four rectangular plate ceramics. The four ceramics were attached to inner surfaces of the square frame elastic body. The same phase voltages were applied to the ceramics on horizontal surfaces, and 90 degree phase difference voltage were applied to the ceramics on vertical surfaces. To find a model that generates elliptical motion at outside of the stator, the finite element analysis program ATILA was used. The analyzed results were compared to the experimental results. As result, the model EL10EH3ET0.5CL4 which generates the maximum elliptical displacement was chosen by analyzing the resonance mode according to changes in frequency.
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Effects of Deposition Temperature on the Properties of InN Thin Films Grown by Radio-frequency Reactive Magnetron Sputtering
Shin Ho Cho
J Electr Electron Mater 2009;22(10):808-813.   Published online October 1, 2009
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Electrical Characteristics of Cu2O-PVP Nanofibers Fabricated by Electrospinning
Ki Yeol Kwak, Kyoung Ah Cho, Jung Gwon Yun, Sang Sig Kim
J Electr Electron Mater 2009;22(8):650-653.   Published online August 1, 2009
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A Finite-element Method of a Multilayer Piezoelectric Body for an Actuator Depending on Inner Electrode Pattern
J Electr Electron Mater 2005;18(12):1124-1128.   Published online December 1, 2005
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Magnetic Suspension Effect of BiPbSrCaCuO Superconducting Bulk
Sang Heon Lee
J Electr Electron Mater 2004;17(5):545-551.   Published online May 1, 2004
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