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      폴리에틸렌 이민과 혼합된 PEO 복합체 전해질의 이온 전도도에 미치는 실리카 필러 첨가 효과 = Silica Filler Addition Effect on the Ion Conductivity of PEO Composite Electrolytes Blended with Poly(ethylene imine)

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      https://www.riss.kr/link?id=A82667926

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      다국어 초록 (Multilingual Abstract)

      In this study, poly(ethyleneoxide) and poly(ethylene imine) polymer blends containing fumed silica fillers were studied in order to enhance the ion conductivity and interfacial properties. Lithium perchlorate (LiCIO4) as a salt, and silica(SiO2) as th...

      In this study, poly(ethyleneoxide) and poly(ethylene imine) polymer blends containing fumed silica fillers were studied in order to enhance the ion conductivity and interfacial properties. Lithium perchlorate (LiCIO4) as a salt, and silica(SiO2) as the inorganic filler were introduced into the polymer composite electrolyte composites and the composites were examined to evaluate their ionic conductivity for a possibility test of electrolyte application. As the diameter of semicircle in an impedance test became smaller, ionic conductivity of composite electrolytes had been enhanced by addition of 20 wt% silica filler. However, the conductivity was not greatly changed over 20 wt% content because the silica was sufficiently saturated in the polymer electrolytes. Diffraction peaks of PEO became weaker with the addition of inorganic fillers using XRD analysis. It showed that a crystallinity was proportionally reduced by increasing filler contents. The morphology of composite electrolyte films has been investigated by SEM. The heterogeneous morphology which silica was evenly dispersed by the strong adhesion of PEI was shown at higher contents of silica.

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      참고문헌 (Reference)

      1 Dias, F. B., "Trends in Polymer Electrolytes for Secondary Lithium Batteries" 88 : 169-, 2000

      2 Krejza, O., "The Presence of Nanostructured Al2O3 in PMMA-based Gel Electrolytes" 178 : 774-, 2008

      3 Stephan, A. M., "Review on Composite Polymer Electrolytes for Lithium Batteries" 47 : 5952-, 2006

      4 Song, J. Y., "Review of Gel-type Polymer Electrolytes for Lithium-ion Batteries" 77 : 183-, 1999

      5 Rey, I., "Raman Spectroelectrochemistry of a Lithium/Polymer Electrolyte Symmetric Cell" 145 (145): 3034-, 1998

      6 Kim, S., "Preparation and Electrochemical Behaviors of Polymeric Composite Electrolytes Containing Mesoporous Silicate Fillers" 52 : 3477-, 2007

      7 Chang, C. K., "Polymeric Electrolyte Based on Poly(Ethylene Imine) and Lithium Salts" 18 : 300-, 1986

      8 Kumar, B., "Polymer-ceramic Composite Electrolytes: Conductivity and Thermal History Effects" 124 : 239-, 1999

      9 Gray, F. M., "Polymer Eleetrolytes" Royal Society of Chemistry 1997

      10 Meyer, W. H., "Polymer Electrolytes for Lithium-ion Batteries" 10 : 439-, 1998

      1 Dias, F. B., "Trends in Polymer Electrolytes for Secondary Lithium Batteries" 88 : 169-, 2000

      2 Krejza, O., "The Presence of Nanostructured Al2O3 in PMMA-based Gel Electrolytes" 178 : 774-, 2008

      3 Stephan, A. M., "Review on Composite Polymer Electrolytes for Lithium Batteries" 47 : 5952-, 2006

      4 Song, J. Y., "Review of Gel-type Polymer Electrolytes for Lithium-ion Batteries" 77 : 183-, 1999

      5 Rey, I., "Raman Spectroelectrochemistry of a Lithium/Polymer Electrolyte Symmetric Cell" 145 (145): 3034-, 1998

      6 Kim, S., "Preparation and Electrochemical Behaviors of Polymeric Composite Electrolytes Containing Mesoporous Silicate Fillers" 52 : 3477-, 2007

      7 Chang, C. K., "Polymeric Electrolyte Based on Poly(Ethylene Imine) and Lithium Salts" 18 : 300-, 1986

      8 Kumar, B., "Polymer-ceramic Composite Electrolytes: Conductivity and Thermal History Effects" 124 : 239-, 1999

      9 Gray, F. M., "Polymer Eleetrolytes" Royal Society of Chemistry 1997

      10 Meyer, W. H., "Polymer Electrolytes for Lithium-ion Batteries" 10 : 439-, 1998

      11 김석, "Organic Clay가 첨가된 고분자 복합 전해질의 제조 및 전기화학적 성질" 한국고분자학회 31 (31): 297-301, 2007

      12 Jinhwan Kim, "New Oligomeric Ether Plasticizers for Solid Polymer Electrolytes: Synthesis and Electrical Properties of Oligomeric PEO Having Bis(five-membered cyclic carbonate)s at Chain Ends" 한국공업화학회 11 (11): 222-227, 2005

      13 Croce, F., "Nanocomposite Polymer Electrolytes for Lithium Batteries" 394 : 456-, 1998

      14 Shukla, A. K., "Materials for Next-generation Lithium Batteries" 94 : 314-, 2008

      15 Nazri, G. A., "Lithium Batteries" Kluwer Academic 2004

      16 Vanchiappan Aravindan, "Li+ ion conduction in TiO2 filled polyvinylidenefluoride-co-hexafluoropropylene based novel nanocomposite polymer electrolyte membranes with LiDFOB" 한국물리학회 9 (9): 1474-1479, 2009

      17 Tarascon, J. M., "Issues and Challenges Facing Rechargeable Lithium Batteries" 414 : 359-, 2001

      18 Tanaka, R., "Ionic Conduction in Poly(ethylenimine)-and Poly(N-methylethylenimine)- lithium Salt Systems" 60 : 119-, 1993

      19 김성철, "Ion-Conducting Hyperbranched PEG Electrolytes Derived from Poly(glycidol)" 한국고분자학회 17 (17): 141-143, 2009

      20 Kim, S., "Interlayer Spacing Effect of Alkylammonium- modified Montmorillonite on Conducting and Mechanical Behaviors of Polymer Composite Electrolytes" 332 : 145-, 2009

      21 Kim, D. W., "Electrochemical Characterization of Poly(ethyleneco- methyl acrylate)-based Gel Polymer Electrolytes for Lithiumion Polymer Batteries" 87 : 78-, 2000

      22 Jeon, J. D., "Effects of addition of TiO2 nanoparticles on mechanical properties and ionic conductivity of solvent-free polymer electrolytes based on porous P(VdF-HFP)/P(EO-EC) membranes" ELSEVIER SCIENCE BV 162 : 1304-1311, 2006

      23 Dissanayake, M. A. K. L., "Effect of Concentration and Grain Size of Alumina Filler on the Ionic Conductivity Enhancement of the (PEO)9LiCF3SO3 : Al2O3 Composite Polymer Electrolyte" 409 : 119-, 2003

      24 Fonseca, C. P., "Development of a Biodegradable Polymer Electrolyte for Rechargeable Batteries" 155 : 381-, 2006

      25 Fenton, D. E., "Complexes of Alkali Metal Ions with Poly(ethylene oxide)" 14 : 589-, 1973

      26 Shin, J. H., "Comparison of Solvent-Cast and Hot-Pressed P(EO)20LiN(SO2CF2CF3)2 Polymer Electrolytes Containing Nanosized SiO2" 152 : A283-, 2005

      27 van Schalkwijk, W. A., "Advances in Lithium-Ion Batteries" Kluwer Academic 2002

      28 Appetecchi, G. B., "0.6 Ah Li/V2O5 Battery Prototypes Based on Solvent-free PEOLiN( SO2CF2CF3)2 Polymer Electrolytes" 143 : 236-, 2005

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