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1.2.9. Silicone elastomers with high-permittivity ionic liquids loading. Xue Liu DPC, Technical University of Denmark xuli@kt.dtu.dk. Silicone elastomers with high-permittivity ionic liquids loading. Xue Liu (1)(2), Yi Nie (2), Liyun Yu (1), Suojiang Zhang (2), Anne Ladegaard Skov(1)*
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1.2.9 Silicone elastomers with high-permittivity ionic liquids loading Xue Liu DPC, Technical University of Denmark xuli@kt.dtu.dk Silicone elastomers with high-permittivity ionic liquids loading Xue Liu (1)(2), Yi Nie (2), Liyun Yu (1), Suojiang Zhang (2), Anne Ladegaard Skov(1)* (1) Danish Polymer Centre, Department of Chemical and Biochemical Engineering, Technical University of Denmark, Kgs. Lyngby, Denmark; (2) CAS Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing, China;
1.2.9 Silicone elastomers with high-permittivity ionic liquids loading Xue Liu DPC, Technical University of Denmark xuli@kt.dtu.dk [1] [2] [3] 1. Yao S, Cui J, Cui Z, Yong Z. Nanoscale. 2017; 9(11), 3797-3805. 2. Trinh V L, Chung C K. small. 2017; 13(29), 1700373. 3. Joo, Y., Byun, J., Seong, N., Ha, J., Kim, H., Kim, S., ... & Hong, Y. Nanoscale. 2015; 7(14), 6208-6215.
1.2.9 Silicone elastomers with high-permittivity ionic liquids loading Xue Liu DPC, Technical University of Denmark xuli@kt.dtu.dk Ionic liquids are a kind of liquid which is composed entirely of ions, and ionic liquids are liquids below 100°C Application Application of ionic liquids • Ionic liquids have many excellent properties and can be used in a wide range of fields. • It is therefore interesting to blend ILs into elastomers to increase their dielectric permittivity. 1. Qian W, Texter J, Yan F. Chemical Society Reviews. 2017; 46(4), 1124-1159.
1.2.9 Silicone elastomers with high-permittivity ionic liquids loading Xue Liu DPC, Technical University of Denmark xuli@kt.dtu.dk Increase content of IL Fig.1 Permittivity of elastomer films with different content of BmimSbF6 Fig.2 Conductivity of elastomer films with different content of BmimSbF6 Fom is a universal parameter to evaluate the DET performance at a constant potential. Fig.3 F*om of elastomer films with different content of BmimSbF6
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