• Title/Summary/Keyword: Nanopowder synthesis

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The Fabrication of Cobalt Nanopowder by Sonochemical Polyol Synthesis of Cobalt Hydroxide and Magnetic Separation Method (수산화코발트의 초음파 폴리올 합성과 자성 선별법을 이용한 코발트 나노 분말의 제조)

  • Byun, Jong Min;Choi, Myoung Hwan;Shim, Chang Min;Kim, Ji Young;Kim, Young Do
    • Journal of Powder Materials
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    • v.22 no.1
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    • pp.39-45
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    • 2015
  • In this study, cobalt nanopowder is fabricated by sonochemical polyol synthesis and magnetic separation method. First, sonochemical polyol synthesis is carried out at $220^{\circ}C$ for up to 120 minutes in diethylene glycol ($C_4H_{10}O_3$). As a result, when sonochemical polyol synthesis is performed for 50 minutes, most of the cobalt precursor ($Co(OH)_2$) is reduced to spherical cobalt nanopowder of approximately 100 nm. In particular, aggregation and growth of cobalt particles are effectively suppressed as compared to common polyol synthesis. Furthermore, in order to obtain finer cobalt nanopowder, magnetic separation method using magnetic property of cobalt is introduced at an early reduction stage of sonochemical polyol synthesis when cobalt and cobalt precursor coexist. Finally, spherical cobalt nanopowder having an average particle size of 22 nm is successfully separated.

Synthesis of Zirconium-Based Nanopowder by the Plasma Arc Discharge Process (플라즈마 아크 방전법에 의한 Zr계 나노분말 제조)

  • Lee, Gil-Geun;Kim, Kyong-Ju;Park, Je-Shin
    • Journal of Powder Materials
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    • v.14 no.1 s.60
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    • pp.63-69
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    • 2007
  • The present study was focused on the synthesis of a zirconium-based alloyed nanopowder by the plasma arc discharge process. The chemical composition, phase structure, particle size and hydrogen sorption property of the synthesized powders under various synthesis conditions were analyzed using XRF, XRD, SEM, XPS and the ASTM-F798 method. The chemical composition of the synthesized Zr-V-Fe-based powders approached that of the raw material with an increasing hydrogen fraction in the powder synthesis atmosphere. The synthesized $Zr_{55}V_{29}Fe_{16}$ powder consist of a mixed phase structure of the $Zr,\;ZrH_2,\;FeV\;and\;Zr(V_{1-x}Fe_{x})_2$ phases. This powder has an average particle size of about 20 nm. The synthesized $Zr_{55}V_{29}Fe_{16}$ nanopowder showed getter characteristics, even though it had a lower hydrogen sorption speed than the $Zr_{57}\;V{36}\;Fe_7$ getter powder. However, the synthesized Zr nanopowder with an average particle size of 20 nm showed higher hydrogen sorption speed than the $Zr_{57}\;V{36}\;Fe_7$ getter powder.

Synthesis of Ni nanopowder using pulsed power technology (펄스파워를 이용한 니켈 나노분말 제조)

  • Cho, Chu-Hyun;Ha, Yoon-Cheol;Kang, Chun-Gil;Kim, Young-Bae
    • Proceedings of the KIEE Conference
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    • 2008.07a
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    • pp.1303-1304
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    • 2008
  • Nickel wire of 0.2mm diameter and 50mm in length was exploded in ethanol for Ni nanopower synthesis. The waveform of discharge current shows that the process can be divided by ohmic heating phase and plasma state. The Ni nanopowder classified after synthesis has 100nm of mean diameter.

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NEW FRONTIERS IN THERMAL PLASMAS FROM SPACE TO NANOMATERIALS

  • Boulos, Maher I.
    • Nuclear Engineering and Technology
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    • v.44 no.1
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    • pp.1-8
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    • 2012
  • Thermal plasma technology has been at the center of major developments over the past century. It has found numerous applications ranging from aerospace materials testing to nanopowder synthesis and processing. In the present review highlights of principal breakthroughs in this field are presented with emphasis on an analysis of the basic phenomena involved, and the potential of the technology for industrial scale applications.

Synthesis of Nano Metal Powder by Electrochemical Reduction of Iron Oxides

  • Seong, Ki-Hun;Lee, Jai-Sung
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.482-483
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    • 2006
  • Synthesis of iron nanopowder by room-temperature electrochemical reduction process of ${\alpha}-Fe_2O_3$ nanopowder was investigated in terms of phase evolution and microstructure. As process variables, reduction time and applied voltage were changed in the range of $1{\sim}20$ h and $30{\sim}40$ V, respectively. From XRD analyses, it was found that volume of Fe phase increased with increasing reduction time and applied voltage, respectively. The crystallite size of Fe phase in all powder samples was less than 30 nm, implying that particle growth was inhibited by the reaction at room temperature. Based on the distinct equilibrium shape of crystalline particle, phase composition of nanoparticles was identified by TEM observation.

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Synthesis of Tetramethylorthosilicate (TMOS) and Silica Nanopowder from the Waste Silicon Sludge (폐(廢)실리콘슬러지로부터 TMOS 및 실리카 나노분말(粉末) 제조(製造))

  • Jang, Hee-Dong;Chang, Han-Kwon;Cho, Kuk;Kil, Dae-Sup
    • Resources Recycling
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    • v.16 no.5
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    • pp.41-45
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    • 2007
  • Tetramethylorthosilicate (TMOS) and silica nanopowder were synthesized from the waste silicon sludge containing 15% weight of silicon powder. TMOS, a precursor of silica nanopowder, was firstly prepared from the waste silicon sludge by catalytic chemical reaction. The maximum recovery of the TMOS was 100% after 5 hrs regardless of reaction temperature above $130^{\circ}C$. But the initial reaction rate became faster while the reaction temperature was higher than $150^{\circ}C$. As the methanol feedrate Increased from 0.8 ml/min to 1.4 ml/min, the yield of reaction was not varied after 3 hrs. Then, silica nanopowder was synthesized from the synthesized TMOS by flame spray pyrolysis. The morphology of as-prepared silica nanopowder was spherical and non-aggregated. The average particle diameters ranged from 9 nm to 30 nm and were in proportional to the precursor feed rate, and precursor concentration.

Synthesis and Characteristics of FePt Nanopowder by Chemical Vapor Condensation Process

  • Yu, Ji-Hun;Lee, Dong-Won;Kim, Byoung-Kee;Jang, Tae-Suk
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09b
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    • pp.1196-1197
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    • 2006
  • FePt binary-alloy nanopowder has been successfully synthesized by chemical vapor condensation process with two metal organic precursors, i.e., iron pentacarbonyl and platinum acetylacetonate. Average particle size of the powder was less than 50 nm with very narrow size distribution, revealing high dispersion capability. Characteristics of the powder could be controlled by changing process parameters such as reaction temperature, chamber pressure, as well as gas flow rate. Magnetic properties of the synthesized FePt nanopowder were investigated and analyzed in terms of the powder characteristics.

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Synthesis of Carbon Nanotubes by Chemical Method at Warm Temperatures (탄소나노튜브의 중저온에서의 화학적 합성)

  • Ahn, Jung-Ho;Lee, Sang-Hyun;Kim, Yong-Jin;Chung, Byung-Sik
    • Journal of Powder Materials
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    • v.13 no.5 s.58
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    • pp.305-312
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    • 2006
  • Amorphous carbon nanotubes were synthesized by a reaction of benzene, ferrocene and Na mixture in a small autoclave at temperatures as low as $400^{\circ}C$. The resulting carbon nanotubes were short and straight, but their inner hole was filled with residual products. The addition of quartz to the reacting mixture considerably promoted the formation of carbon nanotubes. A careful examination of powder structure suggested that the nanotubes in this process were mainly formed by surface diffusion of carbon atoms at the surface of solid catalytic particles, not by VLS(vapor-liquid-solid) mechanism.

Synthesis of Metal and Ceramic Magnetic Nanoparticles by Levitational Gas Condensation (LGC)

  • Uhm, Y.R.;Lee, H.M.;Lee, G.J.;Rhee, C.K.
    • Journal of Magnetics
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    • v.14 no.2
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    • pp.75-79
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    • 2009
  • Nickel (Ni) and ferrite ($Fe_3O_4$, $NiFe_2O_4$) nanoparticles were synthesized by LGC using both wire feeding (WF) and micron powder feeding (MPF) systems. Phase evolution and magnetic properties were then investigated. The Ni nanopowder included magnetic-ordered phases. The LGC synthesis yielded spherical particles with large coercivity while the abnormal initial magnetization curve for Ni indicated a non-collinear magnetic structure between the core and surface layer of the particles. Since the XRD pattern cannot actually distinguish between magnetite ($Fe_3O_4$) and maghemite (${\gamma}-Fe_2O_3$) as they have a spinel type structure, the phase of the iron oxide in the samples was unveiled by $M{\ddot{o}}ssbauer$ spectroscopy. The synthesized Ni-ferrite consisted of single domain particles, including an unusual ionic state. The synthesized nanopowder bore an active surface due to the defects that affected abnormal magnetic properties.