• Title/Summary/Keyword: CoPP

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1-Ethyl-1-Methyl Piperidinium Bis(Trifluoromethanesulfonyl)Imide as a Co-Solvent for Li-ion Battery Electrodes (혼합 용매로서의 1-Ethyl-1-Methyl Piperidinium Bis(Trifluoromethanesulfonyl)Imide의 리튬 이차 전지용 전극별 거동)

  • Koh, Ah Reum;Kim, Ketack
    • Journal of the Korean Electrochemical Society
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    • v.17 no.2
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    • pp.103-110
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    • 2014
  • In the study, a room temperature ionic liquids as a co-solvent was used to evaluate the feasibility with various electrodes in Li-ion batteries. 1-Ethyl-1-methyl piperidinium bis(trifluoromethanesulfonyl) imide(PP12 TFSI) is an ionic liquid that melts at $85^{\circ}C$. Pure PP12 TFSI is not able to be used as an electrolyte because it is a solid salt at room temperature. PP12 TFSI is mixed with EC/DEC(1/1 vol.%) to prepare mixed solvents. The electrolyte 1.5M $LiPF_6$ in a mixed solvent having 44 wt.% PP12 TFSI is prepared to evaluated the various electrodes. The electrolytes provides good cycles life of cells with $LiNi_{0.5}Mn_{1.5}O_4(LNMO)$, $LiFePO_4(LFP)$, $Li_4Ti_5O_{12}(LTO)$ and artificial graphite. Further improvement of the cell performances can be accomplished by enhancing wettability of electrolytes to electrodes.

Effect of Compatibilizers on the Mechanical Properties of Waste Polypropylene/Waste Ground Rubber Tire Composites (상용화제의 첨가에 따른 재생 폴리프로필렌/폐타이어 분말 복합체의 기계적 특성 분석)

  • Park, Ki-Hun;Kim, Dong-Hak;Jung, Jong-Ki;Kim, Seong-Gil;Bang, Daesuk;Oh, Myung-Hoon;Kim, Bong-Suk
    • Resources Recycling
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    • v.23 no.1
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    • pp.70-79
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    • 2014
  • In this study, waste polypropylene and waste ground rubber tire(WGRT) composites were prepared by using a modular intermeshing co-rotating twin screw extruder. The effect of three main factors such as WGRT contents, particle size, compatibilizers on the properties of waste PP/WGRT composites was extensively investigated. Tensile strength of the composites was decreased with an increase in WGRT contents, whereas elongation at break and impact strength were increased. The tensile strength, elongation at break and impact strength of the composites with the smaller size of the WGRT were more enhanced. Addition of PP-g-MA into waste PP/WGRT composites exhibited better tensile strength. However, elongation at break and impact strength were slightly decreased with increasing of PP-g-MA. On the other hand, tensile strength, impact strength and elongation at break of the composites were increased by adding the EPDM-g-MA and SEBS-g-MA. Especially, elongation at break was significantly increased compared to the composite with PP-g-MA.

Effect of the Compatibilizer on Physical Properties of Polypropylene (PP)/Bamboo Fiber (BF) Composites (폴리프로필렌/대나무 섬유 복합체의 물성에 대한 상용화제의 영향)

  • Lee, Jong Won;Ku, Sun Gyo;Lee, Beom Hee;Lee, Ki-Woong;Kim, Cheol Woo;Kim, Ki Sung;Kim, Youn Cheol
    • Applied Chemistry for Engineering
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    • v.26 no.5
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    • pp.615-620
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    • 2015
  • Polypropylene (PP)/bamboo fiber (BF) composites were fabricated by twin screw extruder in order to investigate effects of the compatibilizer on physical properties of PP/BF composites. The content of BF changed from 10 to 25 wt% and that of the compatibilizer was fixed at 3 wt%. Maleic anhydride grafted PP (PP-g-MAH) was used to increase the compatibility between PP and BF as a compatibilizer. Chemical structures of the composites were confirmed by the existence of carbonyl group (C=O) stretching peak at $1,700cm^{-1}$ in FT-IR spectrum. Considering the degradation and mechanical properties, the optimum extrusion conditions were selected to be $210^{\circ}C$ and 100 rpm, respectively. There was no distinct changes in melting temperature of the composites, but the crystallization temperature increased by $10-20^{\circ}C$ owing to the heterogeneous nuclei of BF. It was checked that the optimum BF content was in the range of 15-20 wt% from the results of tensile and flexural properties of the composites. The effect of the compatibilizer on mechanical properties was confirmed by SEM images of fractured surface and contact angles.

A study on evaluation of flexural toughness of synthetic fiber reinforced shotcrete (구조용 합성섬유 보강 숏크리트 휨인성 평가에 관한 연구)

  • Moon, Kyoung-Sun;Kim, Seog-Jin;Kim, Yeon-Deok;Min, Byeong-Heon;Kim, Sang-Hwan
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.21 no.3
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    • pp.433-452
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    • 2019
  • This study deals with shotcrete reinforcing performance according to the amount of synthetic fiber (PP fiber) and proper evaluation method. The shotcrete compressive strength, flexural strength and flexural toughness were tested by setting the mixing amounts of steel fiber ($37.0kg/m^3$) and synthetic fiber (PP fiber) as parameters ($5.0kg/m^3$, $7.0kg/m^3$ and $9.0kg/m^3$). Particularly, circular panel flexural toughness test (Road and Traffic Authority, RTA) was performed to evaluate the shotcrete energy absorption capacity. As a result, the compressive strength and the bending strength of the steel fiber reinforced shotcrete were large, but the flexural toughness of the synthetic fibe (PP fiber) reinforced shotcrete was large. Therefore, synthetic fiber (PP fiber) reinforced shotcrete is considered to have a reinforcing effect comparable to that of steel fiber reinforced shotcrete. Analysis of the relationship between the flexural toughness and the energy absorption capacity of synthetic fiber (PP fiber) reinforced shotcrete revealed that the energy absorbing ability is exhibited at a flexural toughness lower than the allowable standard (3.0 MPa). (Class A: 2.55 MPa = 202J, Class B: 2.72 MPa = 282J, Class C: 3.07 MPa = 403J). As a result of this study, it can be concluded that the actual shotcrete support performance can be evaluated by evaluating the support performance of the shotcrete measured at less than the allowable standard (3.0 MPa) at the actual tunnel site.

Effect of clay contents on Morphology, Thermal and Mechanical properties of Polypropylene Nanocomposites.

  • Nithitanakul Manit;Grady Brain P.;Magaraphan Rathanawan;Muksing Nattaya
    • Proceedings of the Polymer Society of Korea Conference
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    • 2006.10a
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    • pp.291-291
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    • 2006
  • Two different sources of clay, Na-Bentonite (Thai local clay) and Na-Montmorillonite were modified with Hexadodeccyltrimethyl ammonium bromide. The nanocomposites of polypropylene were successfully prepared via melt blending in a co-rotating twin screw extruder by using PP-g-MA as a compatibilizer at various contents of organoclays. The morphology of nanocomposites was investigated by using XRD and SEM. The results showed that the intercalated and exfoliated structures were obtained. The thermal behavior was also studied by using DSC and TGA. The degradation temperature of filled PP was greater than that of unfilled PP by 20%. And, the tensile strength and modulus were improved when a small amount of organoclays were added.

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Humidity Effects on Electric Property in ${\gamma}$-Ray Irradiated PE and PP (방사선이 조사된 PE와 PP의 전기적 특성에 미치는 습도효과)

  • Kang, J.H.;Kim, H.J.;Yu, K.M.;Han, S.O.;Kim, J.S.;Park, K.S.
    • Proceedings of the KIEE Conference
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    • 2002.07c
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    • pp.1458-1459
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    • 2002
  • PE(Polyethylene)와 PP(Polypropylene)의 sheet 에 $Co^{60}{\gamma}$-ray 선원을 실온, 대기 중에서 10 kGy, 30 kGy, 50 kGy의 방사선량으로 조사시키고 습도 분포에 따른 표면 및 체적 저항을 측정한 결과 방사선이 조사되지 않은 시료와 방사선이 조사된 시료와의 저항 값은 큰 차이를 보이지 않았으나 습도 효과에 따른 변화는 습도 분포가 높을수록 저항 값은 상대적으로 낮게 나타났다.

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Amine functionalized plasma polymerized PEG film: Elimination of non-specific binding for biosensing

  • Park, Jisoo;Kim, Youngmi;Jung, Donggeun;Kim, Young-Pil;Lee, Tae Geol
    • Proceedings of the Korean Vacuum Society Conference
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    • 2016.02a
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    • pp.378.2-378.2
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    • 2016
  • Biosensors currently suffer from severe non-specific adsorption of proteins, which causes false positive errors in detection through overestimation of the affinity value. Overcoming this technical issue motivates our research. Polyethylene glycol (PEG) is well known for its ability to reduce the adsorption of biomolecules; hence, it is widely used in various areas of medicine and other biological fields. Likewise, amine functionalized surfaces are widely used for biochemical analysis, drug delivery, medical diagnostics and high throughput screening such as biochips. As a result, many coating techniques have been introduced, one of which is plasma polymerization - a powerful coating method due to its uniformity, homogeneity, mechanical and chemical stability, and excellent adhesion to any substrate. In our previous works, we successfully fabricated plasmapolymerized PEG (PP-PEG) films [1] and amine functionalized films [2] using the plasma enhanced chemical vapor deposition (PECVD) technique. In this research, an amine functionalized PP-PEG film was fabricated by using the plasma co-polymerization technique with PEG 200 and ethylenediamine (EDA) as co-precursors. A biocompatible amine functionalized film was surface characterized by X-ray photoelectron spectroscopy (XPS) and Fourier-transform infrared spectroscopy (FT-IR). The density of the surface amine functional groups was carried out by quantitative analysis using UV-visible spectroscopy. We found through surface plasmon resonance (SPR) analysis that non-specific protein adsorption was drastically reduced on amine functionalized PP-PEG films. Our functionalized PP-PEG films show considerable potential for biotechnological applications such as biosensors.

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Preparation of Polypropylene Grafted Polystyrene Sulfonic Acid Membranes for DMFCs in Supercritical CO2 (초임계 이산화탄소 함침을 이용한 연료전지용 폴리스타이렌/폴리프로필렌 복합막의 제조)

  • Byun, Jungyeon;Sauk, Junho;Synn, Wookyun;Kim, Hwayong
    • Clean Technology
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    • v.11 no.3
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    • pp.141-146
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    • 2005
  • The composite membranes were made by grafting using supercritical carbon dioxide (scCO2) impregnation and polymerization procedures. The membranes were synthesized by changing amount of monomer. The polypropylene grafted polystyrene sulfonic acid (PP-g-pssa) membranes were characterized with various methods. The morphology and structure of PP-g-pssa membranes were analyzed with scanning electron microscopy (SEM) and energy dispersive spectrometer (EDS). As amount of monomer was increased, ion conductivity, cell performance was increased and methanol permeability was decreased. However PP-g-pssa membranes with 1.5g monomer and over had similar values of methanol permeability, ion conductivity and cell performance.

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Dimethylsulfoxide (DMSO) induces downregulation of heme oxygenase-1 (HO-1) in HL-60 cells: involvement of HO-1 in HL-60 cell differentiation

  • Noh, Eun-Mi;Cho, Dong-Hyu;Lee, Young-Rae;Jeong, Young-Ju;Kim, Jong-Hyeon;Chae, Hee-Suk;Park, Jinny;Jung, Won-Seok;Park, Sung-Joo;Kim, Jong-Suk
    • BMB Reports
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    • v.44 no.11
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    • pp.753-757
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    • 2011
  • Heme oxygenase-1 (HO-1), an inducible enzyme with broad tissue expression, is wel1-regulated in response to hematopoietic stress and preserves vascular homeostasis. We investigated the involvement of HO-1 in HL-60 cell differentiation. Dimethyl sulfoxide (DMSO) completely decreased HO-1 expression in a time-dependent manner, but clearly induced HL-60 cell differentiation, as evidenced by a marked increase in CD11b expression. Interestingly, zinc protoporphyrin (ZnPP), a strong inhibitor of HO-1, induced HL-60 cell differentiation. In contrast, treatment with cobalt protoporphyrin (CoPP), an activator of HO-1, decreased CD11b expression. Additionally, ZnPP down-regulated HO-1 protein expression in HL-60 cells, whereas CoPP induced upregulation. These results suggest that HO-1 might have a negative function in DMSO-induced HL-60 cell differentiation. This study provides the first evidence that HO-1 plays an important role in DMSO-induced HL-60 cell differentiation.

Effect of Calcium Carbonate Nanoparticle on the Toughening Mechanisms of Polypropylene Nanocomposite

  • Weon, Jong-Il;Choi, Kil-Yeong
    • Proceedings of the Polymer Society of Korea Conference
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    • 2006.10a
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    • pp.290-290
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    • 2006
  • The toughening mechanisms of polypropylene (PP) containing 9.2 vol % of calcium carbonate ($CaCO_{3}$) nanoparticles were investigated using optical microscopy and transmission electron microscopy. Double-notch four-point bending (DN-4PB) Charpy impact specimens were utilized to study the fracture mechanism(s) responsible for the observed toughening effect. A detailed investigation reveals that the $CaCO_{3}$ nanoparticles act as stress concentrators to initiate massive crazes, followed by shear banding in PP matrix. These toughening mechanisms are responsible for the observed improved impact strength.

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