Ionic Liquids Confined in Silica Ionogels: Structural, Thermal, and Dynamical Behaviors

Subhankur Mitra; Carole Cerclier; Quentin Berrod; Filippo Ferdeghini; Rodrigo de Oliveira-Silva; Patrick Judeinstein; Jean le Bideau; Jean-Marc Zanotti

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Ionic Liquids Confined in Silica Ionogels: Structural, Thermal, and Dynamical Behaviors

机译：限制在硅离子凝胶中的离子液体：结构，热行为和动力学行为

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Ionogels are porous monoliths providing nanometer-scale confinement of an ionic liquid within an oxide network. Various dynamic parameters and the detailed nature of phase transitions were investigated by using a neutron scattering technique, giving smaller time and space scales compared to earlier results from other techniques. By investigating the nature of the hydrogen mean square displacement (local mobility), qualitative information on diffusion and different phase transitions were obtained. The results presented herein show similar short-time molecular dynamics between pristine ionic liquids and confined ionic liquids through residence time and diffusion coefficient values, thus, explaining in depth the good ionic conductivity of ionogels.

机译：离子凝胶是多孔的整体结构，可将纳米级的离子液体限制在氧化物网络内。通过使用中子散射技术研究了各种动态参数和相变的详细性质，与其他技术的早期结果相比，该方法具有更小的时间和空间尺度。通过研究氢均方位移（局部迁移率）的性质，获得了有关扩散和不同相变的定性信息。本文给出的结果显示，通过停留时间和扩散系数值，原始离子液体和受限离子液体之间具有相似的短时分子动力学，从而深入解释了离子凝胶的良好离子电导率。

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《Entropy》 |2017年第4期|共页
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Subhankur Mitra; Carole Cerclier; Quentin Berrod; Filippo Ferdeghini; Rodrigo de Oliveira-Silva; Patrick Judeinstein; Jean le Bideau; Jean-Marc Zanotti;
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1. Ionogel based on biopolymer-silica interpenetrated networks: dynamics of confined ionic liquid with lithium salt [J] . Cerclier Carole V., Zanotti Jean-Marc, Le Bideau Jean Physical chemistry chemical physics: PCCP . 2015,第44期

机译：基于生物聚合物-二氧化硅互穿网络的离子凝胶：含锂盐的受限离子液体的动力学
2. Luminescent Ionogels Based on Europium-Doped Ionic Liquids Confined within Silica-Derived Networks [J] . Kyra Lunstroot, Kris Driesen, Peter Nockemann Chemistry of Materials: A Publication of the American Chemistry Society . 2006,第24期

机译：基于限制在二氧化硅衍生网络中的Euro掺杂离子液体的发光离子凝胶。
3. Effect of confinement on ionic liquids dynamics in monolithic silica ionogels:~1H NMR study [J] . J.Le Bideau, P.Gaveau, S.Bellayer Physical chemistry chemical physics: PCCP . 2007,第40期

机译：封闭对整体式硅离子凝胶中离子液体动力学的影响：〜1H NMR研究
4. Lithium based Ionogel as Solid State Electrolyte: Dynamics of Confined Ionic Liquid, a Neutron Diffusion Study [C] . C. V. Cerclier, J.M. Zanotti, J.P. Embs, Molten salts and ionic liquids 19 . 2014

机译：锂基离子凝胶作为固态电解质：受限离子液体的动力学，中子扩散研究
5. Molecular modeling and simulation study of the structure and dynamics of confined ionic liquids and their performance in gas separations. [D] . Budhathoki, Samir. 2016

机译：受限离子液体的结构和动力学及其在气体分离中的性能的分子建模和模拟研究。
6. Silica-grafted ionic liquids for revealing the respective charging behaviors of cations and anions in supercapacitors [O] . Qingyun Dou, Lingyang Liu, Bingjun Yang, -1

机译：二氧化硅接枝的离子液体用于揭示超级电容器中阳离子和阴离子的各自充电行为
7. Ionic Liquids Confined in Silica Ionogels: Structural, Thermal, and Dynamical Behaviors [O] . Subhankur Mitra, Carole Cerclier, Quentin Berrod, 2017

机译：离子液体被限制在二氧化硅离子凝胶中：结构，热和动力学行为

Ionic Liquids Confined in Silica Ionogels: Structural, Thermal, and Dynamical Behaviors

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