11 results on '"Lee, Jong Hyeon"'
Search Results
2. Morphological diversity of AlN nano- and microstructures: synthesis, growth orientations and theoretical modelling.
- Author
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Nersisyan, Hayk H., Lee, Jong Hyeon, Kim, Hyun You, Ryu, Seunhwa, and Yoo, Bung Uk
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ACOUSTIC surface waves , *NANOSTRUCTURES , *LIGHT emitting diodes , *MICROSTRUCTURE , *CRYSTAL symmetry , *DENSITY functional theory - Abstract
Recent developments have seen breakthroughs in zero-, one-, two-, and three-dimensional AlN micro- and nanostructures, such as nanoparticles, nanowires, nanotubes, thin films and 3D multifold symmetry crystals. The attractive electrical, optical, and thermal properties of AlN make these materials irreplaceable for microelectrochemical systems (MEMS), surface acoustic waves (SAWs) and light emitting diodes (LED). The significant interest in the field of AlN nanostructure synthesis and application encouraged us to summarise the reported data to better understand the physical and chemical aspects of AlN crystal growth processes. Four main topics are covered in this review article: (1) the morphological diversity of AlN nano- and microstructures; (2) formation mechanisms and growth dynamics; (3) theoretical simulation of growth processes based on density functional theory (DFT) and phase field (PF) modelling approaches; (4) application and devices. This article also provides a perspective on future research relevant to AlN micro- and nanostructures. [ABSTRACT FROM AUTHOR]
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- 2020
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3. Densification and microstructure of cross-roll rolled Cu–15% In powder using copper can
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Kim, Dae-Won, Son, Hyeon-Taek, and Lee, Jong-Hyeon
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MICROSTRUCTURE , *ROLLING (Metalwork) , *COPPER alloys , *BINARY metallic systems , *INTERMETALLIC compounds , *METAL powders , *TEMPERATURE effect - Abstract
Abstract: This work describes the role of temperature and rolling method on density and microstructure changes in Cu–15% In (wt%) alloy powder during normal and cross-roll rolling. The rolled specimen consisted of two distinct microstructures: α-Cu and Cu7In3 intermetallic compounds. The specimen obtained with 5° of cross rolling degree and 60% of rolling reduction ratio at 600°C has the highest density of 8.812g/cm3. A detailed analysis of these results in terms of the microstructural changes and densification mechanisms is also presented. [Copyright &y& Elsevier]
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- 2012
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4. Powder characteristics of Al0.5CoCrFeMnNi high-entropy alloys fabricated by gas atomisation method.
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Lee, Yeeun, Nagarjuna, Cheenepalli, Song, Jun-Woo, Jeong, Kwang Yong, Song, Gian, Lee, Jinkyu, Lee, Jong-Hyeon, and Hong, Soon-Jik
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PARTICLE size distribution , *AUGER electron spectroscopy , *ALLOY powders , *POWDERS , *ALLOYS - Abstract
The fabrication of high-quality metallic powders has been attracted considerable attention in terms of producing advanced materials through additive manufacturing (AM) technology. The efficiency of AM products mainly dependent on the initial powder, therefore, characterisation of pre-alloyed powders become important. In this study, we explored the fabrication of Al0.5CoCrFeMnNi high-entropy alloy (HEA) powders by gas atomisation process and investigated their powder characteristics according to particle size distribution. X-ray diffraction results revealed the formation of major face-centred cubic and minor body-centred cubic phase by the addition of Al content. The detailed characterisations such as scanning electron microscopy, Auger electron spectroscopy and XPS analysis was carried out to examine the chemical composition of HEA powders. The relationship between secondary dendrite arm spacing and cooling rate was evaluated. The results demonstrated that produced alloy powders are spherical in shape with smooth surfaces, compositional homogeneity, indicating the gas-atomised powders are widely acceptable for additive manufacturing applications. [ABSTRACT FROM AUTHOR]
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- 2021
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5. Enhancing the thermoelectric properties through hierarchical structured materials fabricated through successive arrangement of different microstructure.
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Sharief, Pathan, Dharmaiah, Peyala, Madavali, Babu, Song, Jun Woo, Lee, Jin Kyu, Lee, Jong Hyeon, and Hong, Soon-Jik
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MICROSTRUCTURE , *SEEBECK coefficient , *SCANNING electron microscopes , *THERMOELECTRIC materials , *ELECTRIC conductivity , *TEMPERATURE distribution , *THERMAL conductivity , *ELECTRON temperature - Abstract
The importance of ZT in thermoelectric (TE) materials is critical for green power generation and cooling applications. Therefore, tremendous efforts were underway to improve ZT, in which we proposed a layer structured approach by successively arranging of coarse Bi 0.5 Sb 1.5 Te 3 (BST) and fine BST/0.07Cu microstructure materials and investigated their transportation mechanism. The dual bulk microstructure was well-bonded and confirmed by analyzing the microstructure through scanning electron microscope (SEM), electron backscatter diffraction analysis (EBSD) and simulated the electrical potential and temperature distribution during spark plasma sintering with COMSOL software. The results indicate that the highest power factor of 3.8 mW/m-K2 was attained in the layer structured sample, which is significantly higher than other samples due to its synergistically optimized electrical conductivity and Seebeck coefficient. Through the varied microstructure, the κ was decreased at 400 K and consequently the ZT was improved to 1.25 at 400 K for the layer structure samples. Therefore, it is suggested that layered arrangement of different microstructure material could improve the thermoelectric properties of materials. [Display omitted] • Novel fabrication of hierarchical structured material with successive arrangement of two different microstructures. • Successful consolidation of well-bonded hierarchical material and confirming by simulating results from COMSOL software. • Highest power factor of 3.8 * 10−3 W/m-K2 obtained by transportation of charge carriers through two different energy levels. • Hierarchical structured sample show highest figure of merit of 1.25 at 400 K which is highest among all reported samples. [ABSTRACT FROM AUTHOR]
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- 2022
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6. Rapid solid-phase synthesis for tantalum nitride nanoparticles and coatings.
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Lee, Young-Jun, Kim, Dae-Young, Nersisyan, Hayk H., Lee, Kap-Ho, Han, Moon-Hee, Kang, Kyoung-Soo, Bae, Ki-Kwang, and Lee, Jong-Hyeon
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TANTALUM compounds , *METAL nanoparticles , *METAL coating , *SOLID-phase synthesis , *COMBUSTION , *TEMPERATURE effect - Abstract
Tantalum nitride nanoparticles were produced from a (K2TaF7 +5NaN3) exothermic mixture under the combustion regime. The effects of the K2TaF7/NaN3 ratio and KF and NH4F concentrations on the combustion parameters, product composition, and size of the tantalum nitride particles were studied. Depending on the synthesis conditions, the combustion temperature was maintained in the 700–1200°C range, resulting in hexagonal ε-TaN, TaN0.8, and Ta2N phases. The dominant phases were TaN and TaN0.8 in the 1000–1200°C range, whereas only the Ta2N phase was present in the 700–100°C range. Pure-phase cubic tantalum nitride (δ-TaN) was produced with 4.0mol of NH4F at a combustion temperature of ~800°C. Under controlled reaction conditions, the size of the tantalum nitride particles was about 10–50nm. We also found that during the synthesis, the stainless steel tube located inside of the reaction mixture was partially coated with fine TaN crystals. The mechanism of the combustion process is discussed in regards to the experimental results. [ABSTRACT FROM AUTHOR]
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- 2013
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7. Formation of high purity Si nanofiber from metallurgical grade Si by molten salt electrorefining
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Ryu, Hong Youl, An, Young Soo, Jang, Bo Yoon, Lee, Jin Seok, Nersisyan, Hayk H., Han, Moon Hee, Noh, Jae-Soo, and Lee, Jong Hyeon
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SILICON , *NANOFIBERS , *MOLTEN salt electrolytes , *METALLURGICAL analysis , *SOLUTION (Chemistry) , *MICROSTRUCTURE , *TEMPERATURE effect - Abstract
Abstract: We studied the purification of metallurgical grade Si from solutions of K2SiF6 in fluoride melts using a molten salt electrorefining process at 700 °C. Electrorefining close to the deposition potential gave dense, coherent, and well-adherent deposits. It was shown that the deposition rate and microstructure of Si strongly depend on the process temperature. Deposited polycrystalline silicon has a well defined rod shape and crooked structure that varies with current density. The anodic dissolution rate is affected by the initial concentrations of K2SiF6 and the applied current density. The results of an inductively coupled plasma (ICP) analysis indicated that recovered silicon fiber deposits with purities greater than 99.98% can be obtained using the developed technique. The morphology of the electrodeposited silicon on silver substrates is discussed in the context of a cathodic reaction on the electrode surface, and a comprehensive explanation of the purification mechanism with salt removal is provided. [Copyright &y& Elsevier]
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- 2012
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8. Efficient synthesis route to quasi-aligned and high-aspect-ratio aluminum nitride micro- and nanostructures
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Lee, Tae-Hyuk, Nersisyan, Hayk H., Jeong, Ha-Guk, Lee, Kap-Ho, Noh, Jae-Soo, and Lee, Jong-Hyeon
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ALUMINUM nitride , *MICROSTRUCTURE , *NANOSTRUCTURED materials , *COMBUSTION , *HIGH pressure (Science) , *CERAMIC-matrix composites , *TRANSMISSION electron microscopy , *NITROGEN - Abstract
Abstract: Quasi-aligned, high-aspect-ratio AlN micro- and nanostructures were synthesized under high nitrogen pressure by the exothermic reaction of an Al+0.015mol (C2F4) n mixture. Structurally uniform AlN micro- and nanofibers with hexagonal and cylindrical morphologies were obtained when the system temperature was maintained within the range of 1600–1700°C. The fibers had aspect ratios as high as 2000, diameters in the range of ∼0.05–20μm, and were ∼100–1000μm in length. High-resolution transmission electron microscopic and selected area diffraction analyses indicated that the as-synthesized AlN micro- and nanostructures are perfectly single crystalline with preferential growth along the [001] direction. Branching was also observed in some of the micro-fibers, giving rise to randomized, two-dimensional comb textures. Based on the results obtained in the present study, a mechanism for the formation of AlN micro- and nanostructures under combustion conditions was proposed. [Copyright &y& Elsevier]
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- 2011
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9. Rapid and cost-effective method for synthesizing zirconium silicides
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Cho, Il-Je, Park, Kyung-Tae, Lee, Sang-Ki, Nersisyan, Hayk H., Kim, Yong-Soo, and Lee, Jong-Hyeon
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ZIRCONIUM compounds , *COST effectiveness , *INORGANIC synthesis , *NUCLEAR industry , *SILICIDES , *MICROSTRUCTURE , *SELF-propagating high-temperature synthesis , *CHEMICAL reactions - Abstract
Abstract: An experimental study on the preparation of zirconium silicides was conducted using ZrSiO4–Mg, ZrSiO4–SiO2–Mg and ZrSiO4–ZrO2–Mg powder mixtures by the combustion synthesis (CS) technique. Test specimens having different composition ratios including Zr:Si=1:2, 1:1, 5:4, 5:3, 2:1, and 3:1 were employed in this study. Temperature profiles relative to all the starting compositions were measured using thermocouples, and the values of the combustion parameters (combustion temperature and wave velocity) were estimated using the same. The formation of ZrSi, ZrSi2, Zr5Si3, and Zr3Si2 phases was confirmed by X-ray analysis; however, only ZrSi was produced as a single-phase product. The proposed method was also extended to synthesize spherical ZrSi particles having mean diameters of 0.2–3.0μm. A comprehensive chemical pathway to describe the sequence of chemical reactions in the combustion wave was also proposed. [ABSTRACT FROM AUTHOR]
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- 2010
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10. Understanding the microstructure and mechanical properties of TaxAl0.7CoCrFeNi2.1 eutectic high entropy composites: Multi-scale deformation mechanism analysis.
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Kim, Min Jung, Kim, Jeong Tae, Elyorjon, Jumaev, Chan Kang, Gyeol, Hong, Soon Jik, Song, Gian, Lee, Jin Kyu, Lee, Jong Hyeon, and Kim, Ki Buem
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DEFORMATIONS (Mechanics) , *MICROSTRUCTURE , *EUTECTIC structure , *ENTROPY , *DENDRITES - Abstract
The analyses of phase composition, microstructure and the mechanical properties were conducted for as-cast Ta x Al 0.7 CoCrFeNi 2.1 (x = 0.3, 0.5, 0.6 and 0.7) eutectic high entropy composites (EHECs). With the x value increases from 0.3 to 0.6, the phases of dendrite changed from L1 2 to B2 and volume fraction of ultrafine-eutectic matrix consisting of Face-centered cubic and Laves phases increased. When x = 0.7, the Laves phase appears as the primary dendrite and the matrix region changed into the bimodal eutectic structure (L1 2 + Laves and B2 + Laves). Thermo-physical parameters could be used for understanding phase formation in EHECs. Experimental and theoretical comparison using thermo-physical parameters shows a reasonable consistency. Depending on the microstructural variation, the yield strength increased from 1304 MPa (x = 0.3) to 2154 MPa (x = 0.6) and plasticity decreased from 17% (x = 0.5) to 4% (x = 0.6). In order to understand the nano-to-micronscale deformation mechanisms depending on the microstructural variations, the systematic investigations of post-deformed samples (x = 0.5 and 0.6) were carried out by multi-scale SEM, TEM, and AFM analyses. [Display omitted] [ABSTRACT FROM AUTHOR]
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- 2021
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11. Fabrication of large-scale p-type 75%Sb2Te3-25%Bi2Te3 thermoelectric materials by gas atomization and hot isostatic pressing.
- Author
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Yoon, Sang Min, Madavali, Babu, Lee, Chul-Hee, Femi, Olu Emmanuel, Lee, Jong-Hyeon, Song, Sung Ho, and Hong, Soon-Jik
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ISOSTATIC pressing , *HOT pressing , *ATOMIZATION , *THERMOELECTRIC materials , *ELECTRIC conductivity , *THERMAL conductivity - Abstract
• Produced large-scale (3 Kg/batch) of 75%Sb 2 Te 3 -25%Bi 2 Te 3 powder by gas atomization. • The hot isostatic pressed bulk displays random distribution of grains. • Higher electrical conductivity achieved for 450 °C sample due to high mobility. • Peak ZT of 1.15 obtained for HIPed at 450 °C sample due to high conductivity values. For economic viability of thermoelectric modules, issues of scalability and sturdiness to drive down production and manufacturing cost must be adequately addressed. In this study, we report a large-scale production of 3 Kg/batch of 75%Sb 2 Te 3 -25%Bi 2 Te 3 powder by gas atomization. The as-produced large-scale atomized powder was subsequently sintered by hot isostatic pressing (HIP) at two different temperatures. The microstructure of the HIPed fracture surface reveals a transgranular mode of fracture in the basal plane of the grains perpendicular to the contact surface. The texture analysis showed that grains were randomly distributed and indicating no preferred alignment in any direction. The sample HIPed at 450 °C shows the highest electrical conductivity of 1350 Ω−1 cm−1 at room temperature due to their high carrier mobility. The highest ZT of 1.15 at 375 K was observed for the sample HIPed at 450 °C owing to their high electrical conductivity, and reasonable low thermal conductivity. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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