New Type of Li Ion Conductor with 3D Interconnected Nanopores via Polymerization of a Liquid Organic Electrolyte-Filled Lyotropic Liquid-Crystal Assembly

A new type of polymer electrolyte material for Li ion transport has been developed. This material is based on a polymerizable lyotropic (i.e., amphiphilic) liquid crystal (1) that forms a type-II bicontinuous cubic (QII) phase with the common liquid electrolyte, propylene carbonate (PC), and its Li...

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Veröffentlicht in:	Journal of the American Chemical Society 2009-11, Vol.131 (44), p.15972-15973
Hauptverfasser:	Kerr, Robert L., Miller, Seth A., Shoemaker, Richard K., Elliott, Brian J., Gin, Douglas L.
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creator	Kerr, Robert L. Miller, Seth A. Shoemaker, Richard K. Elliott, Brian J. Gin, Douglas L.
description	A new type of polymer electrolyte material for Li ion transport has been developed. This material is based on a polymerizable lyotropic (i.e., amphiphilic) liquid crystal (1) that forms a type-II bicontinuous cubic (QII) phase with the common liquid electrolyte, propylene carbonate (PC), and its Li salt solutions. The resulting cross-linked, solid−liquid nanocomposite has an ordered, three-dimensional interconnected network of phase-separated liquid PC nanochannels and exhibits a room-temperature ion conductivity of 10−4 to 10−3 S cm−1 when formed with 15 wt % 0.245 M LiClO4−PC solution. This value approaches that of conventional gelled poly(ethylene oxide)-based electrolytes blended with larger amounts of higher-concentration Li salt solutions. It is also similar to that of a bulk 0.245 M LiClO4−PC solution measured using the same AC impedance methods. Preliminary variable-temperature ion conductivity and NMR DOSY studies showed that liquidlike diffusion is present in the QII nanochannels and that good ion conductivity (∼10−4 S cm−1) and PC mobility are retained down to −35 °C (and lower). This type of stable, liquidlike ion conductivity over a broad temperature range is typically not exhibited by conventional gelled-polymer- or liquid-crystal-based electrolytes, making this new material potentially valuable for enabling Li ion batteries that can operate more efficiently over a wider temperature range.
doi_str_mv	10.1021/ja905208f
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Preliminary variable-temperature ion conductivity and NMR DOSY studies showed that liquidlike diffusion is present in the QII nanochannels and that good ion conductivity (∼10−4 S cm−1) and PC mobility are retained down to −35 °C (and lower). 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Preliminary variable-temperature ion conductivity and NMR DOSY studies showed that liquidlike diffusion is present in the QII nanochannels and that good ion conductivity (∼10−4 S cm−1) and PC mobility are retained down to −35 °C (and lower). 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Am. Chem. Soc</addtitle><date>2009-11-11</date><risdate>2009</risdate><volume>131</volume><issue>44</issue><spage>15972</spage><epage>15973</epage><pages>15972-15973</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>A new type of polymer electrolyte material for Li ion transport has been developed. This material is based on a polymerizable lyotropic (i.e., amphiphilic) liquid crystal (1) that forms a type-II bicontinuous cubic (QII) phase with the common liquid electrolyte, propylene carbonate (PC), and its Li salt solutions. The resulting cross-linked, solid−liquid nanocomposite has an ordered, three-dimensional interconnected network of phase-separated liquid PC nanochannels and exhibits a room-temperature ion conductivity of 10−4 to 10−3 S cm−1 when formed with 15 wt % 0.245 M LiClO4−PC solution. This value approaches that of conventional gelled poly(ethylene oxide)-based electrolytes blended with larger amounts of higher-concentration Li salt solutions. 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title	New Type of Li Ion Conductor with 3D Interconnected Nanopores via Polymerization of a Liquid Organic Electrolyte-Filled Lyotropic Liquid-Crystal Assembly
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