• Title/Summary/Keyword: small angle neutron scattering (SANS)

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A Small-Angle Neutron Scattering Study for Sizes and Structures of Micelles and Vesicles Formed in Aqueous Solutions of Mixed Surfactants ADS/OTAC (ADS/OTAC 혼합 계면활성제 수용액에서 형성된 마이셀과 층막구형체의 크기 및 구조에 대한 작은 각 중성자 산란 연구)

  • Kim, Hong-Un;Lee, Jin-Kyu;Lim, Kyung-Hee
    • Applied Chemistry for Engineering
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    • v.16 no.2
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    • pp.231-237
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    • 2005
  • The sizes and structure of micelles and vesicles formed in ammonium dodecyl sulfate (ADS)/octadecyl trimethyl ammonium chloride (OTAC) mixed aqueous solutions were analyzed by small-angle neutron scattering. In micellar regions of pure ADS and OTAC aqueous solution, the spherical micelles were formed at given concentrations and their sizes were 40 and $61{\AA}$, respectively. The structure transition of pure micelles occurred above 300 mM due to the constancy of the intermicellar distance above 250 mM. The coexisting region of mixed micelles and vesicles in phase diagram of mixed system was also assured. It was investigated that vesicle formed spontaneously took a bilayer structure. The lamellar thickness of vesicles decreased with increasing concentration of vesicle samples. However, the size could not be determined for mixed micelle and vesicle above 100 nm due to limitation of low q ranges. Finally, The 9 mM solution of ADS mole fraction 0.9 (${\alpha}$=0.9) showed bilayer structure compared to phase diagram classified into mixed micelle.

SANS Studies on the Formation of PANI Nanoparticles in the Reverse Micelles

  • Sim, Jae-Hyun;Kim, Myung-woong;Park, Sang-wook;Bang, Jeong-Hwa;Sohn, Dae-won
    • Bulletin of the Korean Chemical Society
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    • v.27 no.2
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    • pp.251-254
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    • 2006
  • The formation of polyaniline (PANI) in the reverse micelles of poly(oxyethylene) nonylphenyl ether, $(NP5, H(CH_2)_9Ph(OC_2H_4)_5OH)$, was investigated by small-angle neutron scattering (SANS). The reverse micellar solution containing initiators in the inner part of reverse micelle was prepared with surfactant (NP5), water, cyclohexane and an initiator (ammonium persulfate (APS)). The core-shell sphere model containing smearing effect reveals that the polymerization occurs on the shell layer of the reverse micelles. Shell thickness averages varied from 48 $\AA$ to 109 $\AA$ with increases of monomer concentration.

A novel ceramic GEM used for neutron detection

  • Zhou, Jianrong;Zhou, Xiaojuan;Zhou, Jianjin;Jiang, Xingfen;Yang, Jianqing;Zhu, Lin;Yang, Wenqin;Yang, Tao;Xu, Hong;Xia, Yuanguang;Yang, Gui-an;Xie, Yuguang;Huang, Chaoqiang;Hu, Bitao;Sun, Zhijia;Chen, Yuanbo
    • Nuclear Engineering and Technology
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    • v.52 no.6
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    • pp.1277-1281
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    • 2020
  • A novel ceramic Gas Electron Multiplier (GEM) has been developed to meet the demand of high counting rate for the neutron detection which is an alternative to 3He-based detector at China Spallation Neutron Source (CSNS). An experiment was performed to measure the neutron transmittance of ceramic-GEM and FR4-GEM at the small angle neutron scattering (SANS) instrument. The result showed the ceramic-GEM has higher transmittance and less self-scattering especially for cold neutrons. One single ceramic GEM could give a gain of 102-104 in the mixture gas of Ar and CO2 (90%:10%) and its energy resolution was about 27.7% by using 55Fe X ray of 5.9 keV. A prototype has been developed in order to investigate the performances of the ceramic GEM-based neutron detector. Several neutron beam tests, including detection efficiency, spatial resolution, two-dimensional imaging, and wavelength spectrum, were carried out at CSNS and China Mianyang Research Reactor (CMRR). The results show that the ceramic GEM-based neutron detector is a good candidate to measure the high intensity neutrons.

Phase Behavior and Spontaneous Vesicle Formation in Aqueous Solutions of Anionic Ammonium Dodecyl Sulfate and Cationic Octadecyl Trimethyl Ammonium Chloride Surfactants

  • Kang, Kye-Hong;Kim, Hong-Un;Lim, Kyung-Hee
    • Bulletin of the Korean Chemical Society
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    • v.28 no.4
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    • pp.667-674
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    • 2007
  • Phase behavior for the mixed aqueous surfactant systems of cationic octadecyl trimethyl ammonium chloride (OTAC)/anionic ammonium dodecyl sulfate (ADS)/water was examined. Below the total surfactant concentrations of 1.5 m molal, mixed micelles were formed. At the total surfactant concentrations higher than 1.5 m molal, there appeared a region where mixed micelles and vesicles coexist. As the surfactant concentration increased, the systems looked very turbid and much more vesicles were observed. The vesicles were spontaneously formed in this system and their existence was observed by negative-staining transmission electron microscopy (TEM), small-angle neutron scattering (SANS) and encapsulation efficiency of dye. The vesicle region was where the molar fraction α of ADS to the total mixed surfactant was from 0.1 to 0.7 and the total surfactant concentration was above 5 × 10-4 molality. The size and structure of the vesicles were determined from the TEM microphotographs and the SANS data. Their diameter ranged from 450 nm to 120μm and decreased with increasing total surfactant concentration. The lamellar thickness also decreased from 15 nm to 5 nm with increasing surfactant concentration and this may be responsible for the decrease in vesicle size with the surfactant concentration. The stability of vesicles was examined by UV spectroscopy and zeta potentiometry. The vesicles displayed long-term stability, as UV absorbance spectra remained unchanged over two months. The zeta potentials of the vesicles were large in magnitude (40-70 mV) and the observed longterm stability of the vesicles may be attributed to such high ζ potentials.

Nanomaterials Research Using Quantum Beam Technology

  • Kishimoto, Naoki;Kitazawa, Hideaki;Takeda, Yoshihiko
    • Proceedings of the Materials Research Society of Korea Conference
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    • 2011.10a
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    • pp.7-7
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    • 2011
  • Quantum beam technology has been expected to develop breakthroughs for nanotechnology during the third basic plan of science and technology (2006~2010). Recently, Green- or Life Innovations has taken over the national interests in the fourth basic science and technology plan (2011~2015). The NIMS (National Institute for Materials Science) has been conducting the corresponding mid-term research plans, as well as other national projects, such as nano-Green project (Global Research for Environment and Energy based on Nanomaterials science). In this lecture, the research trends in Japan and NIMS are firstly reviewed, and the typical achievements are highlighted over key nanotechnology fields. As one of the key nanotechnologies, the quantum beam research in NIMS focused on synchrotron radiation, neutron beams and ion/atom beams, having complementary attributes. The facilities used are SPring-8, nuclear reactor JRR-3, pulsed neutron source J-PARC and ion-laser-combined beams as well as excited atomic beams. Materials studied are typically fuel cell materials, superconducting/magnetic/multi-ferroic materials, quasicrystals, thermoelectric materials, precipitation-hardened steels, nanoparticle-dispersed materials. Here, we introduce a few topics of neutron scattering and ion beam nanofabrication. For neutron powder diffraction, the NIMS has developed multi-purpose pattern fitting software, post RIETAN2000. An ionic conductor, doped Pr2NiO4, which is a candidate for fuel-cell material, was analyzed by neutron powder diffraction with the software developed. The nuclear-density distribution derived revealed the two-dimensional network of the diffusion paths of oxygen ions at high temperatures. Using the high sensitivity of neutron beams for light elements, hydrogen states in a precipitation-strengthened steel were successfully evaluated. The small-angle neutron scattering (SANS) demonstrated the sensitive detection of hydrogen atoms trapped at the interfaces of nano-sized NbC. This result provides evidence for hydrogen embrittlement due to trapped hydrogen at precipitates. The ion beam technology can give novel functionality on a nano-scale and is targeting applications in plasmonics, ultra-fast optical communications, high-density recording and bio-patterning. The technologies developed are an ion-and-laser combined irradiation method for spatial control of nanoparticles, and a nano-masked ion irradiation method for patterning. Furthermore, we succeeded in implanting a wide-area nanopattern using nano-masks of anodic porous alumina. The patterning of ion implantation will be further applied for controlling protein adhesivity of biopolymers. It has thus been demonstrated that the quantum beam-based nanotechnology will lead the innovations both for nano-characterization and nano-fabrication.

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Effect of Coiling Temperature and Alloying Elements on the Mechanical Properties and Precipitation Behavior in High Strength Hot Rolled Steel Sheets (고강도 열연강판의 기계적 성질과 석출거동에 미치는 권취온도와 합금원소의 영향)

  • Kang, S.S.;Lee, O.Y.;Han, S.H.;Jin, K.G.;Seong, B.S.
    • Korean Journal of Materials Research
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    • v.13 no.10
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    • pp.683-690
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    • 2003
  • The high strength low alloy(HSLA) steels microalloyed with Nb, Ti and V have been widely used as the automobile parts to decrease weight of vehicles. The effects of process conditions are investigated in the aspects of the precipitation behavior and the mechanical properties of HSLA steel microalloyed with Nb and Ti using TEM, SANS and mechanical testing. When Ti was added to a 0.07C-1.7Mn steel which was coiled at $500^{\circ}C$, the specimen revealed the property of higher tensile strength of 853.1 MPa and the stretch-flangeability of 60%. The stretch-flangeability was increased up to 97.8% for coiling temperature above $700^{\circ}C$. The precipitation hardening cannot be achieved in the 0.045C-1.65Mn steel which was the lower density of fine precipitates. However, the 0.07C-1.7Mn steels containing Nb and/or Ti which was coiled at X$/^{\circ}C$ have a high precipitates density of $2${\times}$10^{ 5}$/$\mu$㎥. The high strength of these steels was attributed to the precipitation hardening caused by a large volume froction of (Ti, Nb)C precipitates with a size below 5 nm in ferrite matrix.

Mn 도핑 농도에 따른 ZnO 나노 입자의 구조와 자성 특성 연구

  • Kim, Jeong-Hun;Kim, Seon-Ho;Jeon, Gwang-Deok;Lee, Ji-Eun;Lee, Hui-Su;Jeong, Jin-Cheol;Choe, Pu-Reum;Eo, Jin-Seok;Park, Jun-Ho;Lee, Ji-Un;Choe, Seung-Yeon;Choe, Gyu-Hyeon;Baek, Min;Yang, U-Cheol
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.02a
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    • pp.604-604
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    • 2013
  • 차세대 반도체 분야인 스핀트로닉스 소자의 필수적인 물질인 강자성-반도체 하이브리드 물질인 Dilute magnetic semiconductor (DMS)에 관한 연구가 최근 많은 관심을 가지고 있다. 그중에서 넓은 에너지 밴드 갭 에너지(3.37 eV)를 가지고 있고 상온에서 엑시톤 결합 에너지가 ~60 mV로 광전자 소자, 전계 디스플레이 에 응용이 가능한 물질인 ZnO는 최근에 전이금속을 도핑하여 상온에서 강자성 특성을 나타내어 활발한 연구가 이루어지고 있다. 그러나, 이 물질에 대한 특성과 자성의 원인 규명에 관한 연구는 논란이 되고 있다. 본 연구에서는 Mn이 도핑된 ZnO 나노 입자를 만들고, Mn 물질의 도핑 농도에 따른 ZnO 나노 입자의 구조, 크기 및 자기 구조를 측정하여 구조와 자성의 상관관계에 관한 연구하였다. ZnxMn1-xO 나노 입자는 화학적 졸-겔(sol-gel) 방법을 이용하여 준비하였다. ZnxMn1-xO 나노 입자의 크기 및 격자 구조적 특징은 XRD (X-ray diffraction)와 TEM (Transmission Electron Microscope), SEM (Scanning Electron Microscope), SANS (Small Angle Neutron Scattering)를 이용하여 측정하였고 물질의 자기적 특징은 SQUID를 이용하여 조사하였다. Mn 도핑이 증가함에 따라 격자간격이 커지고 나노 입자의 크기는 감소하였으며, Zn와 Mn의 성장 시, 비율이 9:1의 경우에 상온에서 강자성 특성이 나타남을 보았다. 그 이상의 Mn 도핑 비율에서는 상자성 특성이 나타남을 보았다. 본 연구를 통하여 스핀트로닉스 소자 응용을 위한 ZnO 나노 입자에 최적의 Mn 도핑 농도를 제시하고 나노 입자의 자기 특성 형성의 원인 및 모델을 제시하였다.

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