高分子凝胶电解质及其在电色Smart窗中的应用

研究了高分子凝胶电解质高氯酸锂－碳酸丙烯酯－聚甲基丙烯酸甲酯体系（ＬｉＣｌＯ４－ＰＣ－ＰＭＭＡ）的离子导电性、导电机理以及在电色Ｓｍａｒｔ窗中的应用．其离子电导率与温度的关系服从Ｖｏｇｅｌ－Ｔａｍｍａｎｎ－Ｆｕｌｃｈｅｒ方程，并与体系的ＰＭＭＡ质量百分数、玻璃化温度（Ｔｇ）、碱金属盐的浓度等有关．当ＬｉＣｌＯ４浓度为０．５ｍｏｌ／Ｌ，ＰＭＭＡ＝３５％时，电解质具有良好的粘附性、光学透明度及较高的室温离子电导率（σ＝８．７５×１０－４Ｓ／ｃｍ）．由其组装成的全固态电色Ｓｍａｒｔ窗具有良好的光谱特性，可见光调制范围为４０％～６０％；具有良好的光开关特性，响应时间仅为５ｓ．     

锂离子电池凝胶聚合物电解质改性的研究现状

从目前凝胶聚合物电解质的研究现状及问题出发,重点介绍了两种改性凝胶聚合物电解质的方法。无机纳米粒子复合凝胶聚合物电解质能够降低结晶型聚合物的结晶度,提高其离子电导率,改善其力学性能和稳定性;多孔凝胶聚合物电解质能够实现在较宽的温度范围内能保持较高的离子电导率和较好的机械强度及尺寸稳定性。最后,对凝胶聚合物电解质的改性研究方向作出了展望。     

高分子凝胶电解质高氯酸锂 - 碳酸乙二醇酯 - 聚甲基丙烯酸甲酯体系的研究

研究了高分子凝胶电解质高氯酸锂 碳酸乙二醇酯 聚甲基丙烯酸甲酯体系（ＬｉＣｌＯ４ ＥＣ ＰＭＭＡ）的离子导电性、热稳定性和电化学稳定性．该体系的离子电导率与温度的关系服从ＶＴＦ方程．当ＬｉＣｌＯ４的浓度ＣＬｉＣｌＯ４＝１５ｍｏｌ／Ｌ、ＰＭＭＡｗｔ％（质量百分数）＝３５时，其离子电导率达极大值δ＝１９２×１０－３Ｓ／ｃｍ，光学透明度高，在空气中的稳定性较好，且具有一定的粘附性．该体系在１０２℃以下的热稳定性较高（失重率为３２８％）；电化学稳定性窗口为４５Ｖ，可满足固态电致变色“Ｓｍａｒｔ”窗的要求．     

复合聚合物电解质的导电行为及电导率的测定

研究了乙烯碳酸酯（EX）增塑的（PEO）16LiClO4-EC复合聚合物电解质交流阻抗谱图，提出了不锈钢电极／聚合物电解质／不锈钢电极这种结构在交流阻抗测试分析中具有普适性的模拟等效电路，并且根据等效电路中元件拟合值测定出复合聚合物电解质体系在不同EC增塑量及温度时的电导率，用复合聚合物电解质体系中各组分之间的相互作用解释了EC对聚合物电解质电行为的影响，在低EC含量的复合聚合物电解质体系中，电导率和温度的关系在低温时符合Arrhenius方程，在高温时符合Vogel-Tamman-Fulcher(VTF)方程；而当EC含量大于20％时，电导率和温度的关系在实验温度范围内符合VTF方程。     

以脲和硫氰酸铵为主体的固体电解质的研究

制得以脲和硫氰酸铵为主体的固体电解质,其室温电导率可达到４．３５×１０－２Ｓ·ｃｍ－１,比以脲和硫脲为主体固体电解质的电导率６．８４×１０－３Ｓ·ｃｍ－１提高了一个数量级。实验发现,影响电导率的因素主要有组成、温度和高分子。ＤＴＡ表明该电解质为非晶态固熔体,其导电性质既不服从Ａｒｈｅｎｉｕｓ方程,又不服从ＶＴＦ方程     

交替马来酸酐共聚物多缩乙二醇酯盐络合物的离子传导性

交替马来酸酐共聚物多缩乙二醇酯盐络合物的离子传导性丁黎明，林云青，周子南，王佛松（中国科学院长春应用化学研究所，长春，１３００２２）关键词高分子固体电解质，离子电导率，玻璃化转变温度，离子传输，ＶＴＦ方程１９７３年，Ｐ．Ｖ．Ｗｒｉｇｈｔ等人［１］首次...     

PAN/PMMA凝胶聚合物电解质膜导电动力学分析

采用静电纺丝法制备PAN/PMMA(聚丙烯腈/聚甲基丙烯酸甲酯)凝胶聚合物电解质膜,用交流阻抗法测试其在不同温度下的电导率,研究温度对凝胶聚合物电解质膜离子传输性能的影响规律;并与溶液浇铸法制得的平滑膜进行对比,分析两种不同形式凝胶聚合物电解质膜的导电动力学规律,探索其导电机理与微观形貌的关系.结果发现,两种薄膜的导电机理符合Arrhenius公式,其中纺丝薄膜的离子导电活化能较低.     

一种新型固体电解质的导电性的研究

对多种新型Ｌｉ离子导电的ｐｏｌｙｍｅｒ－ｉｎ－ｓａｌｔ固体电解质的导电性及其影响因素进行了研究。这种固体电解质是将很少量的单离子聚合物电解质－聚丙烯酸锂熔于低温共熔锂盐中得到的,室温电导率为１０＾－５Ｓ／ｃｍ（２９℃）,较由聚氧化乙烯（ＰＥＯ）制造的ｐｏｌｙｍｅｒ－ｉｎ－ｓａｌｔ固体电解质,电导率有明显地提高。     

含[AMIM]BF4的聚甲基丙烯酸甲酯基凝胶聚合物电解质的制备与改性

用两步法合成了离子液体1-烯丙基-3-甲基咪唑四氟硼酸盐（[AMIM]BF4）,将聚甲基丙烯酸甲酯(PMMA)引入离子液体[AMIM]BF4中,制备出含离子液体[AMIM]BF4的新型凝胶聚合物电解质,采用非质子溶剂、纳米SiO2等对其进行了改性。 用FT-IR、交流阻抗（AC）、TG、SEM等测试技术对其结构和性能进行了表征。 结果表明,非质子溶剂碳酸丙烯酯、碳酸二甲酯和纳米SiO2的加入使聚合物电解质的室温离子电导率增大,达5.25×10-3 S/cm;电导率与温度的关系符合Arrhenius方程;几种凝胶聚合物电解质的热分解温度均高于300 ℃,显示出良好的热稳定性。     

辐照交联法制备锂离子电池用凝胶聚合物电解质及其性能

采用γ-射线辐照交联法制备了具有网络结构的聚偏氟乙烯-六氟丙烯/新戊二醇二丙烯酸酯(PVDF-HFP/NPGDA)基凝胶聚合物电解质(GPE). 考察了不同辐照剂量对凝胶电解质形貌结构、热稳定性和电化学性能的影响以及不同辐照剂量和不同温度下电导率的变化. 结果表明, 随辐照剂量的增加, 凝胶电解质的固化程度提高, 电导率下降. 电导率随温度的变化符合VTF方程. 当辐照剂量为5 kGy 时, 制备的凝胶电解质具有较高的离子电导率和电化学稳定窗口, 室温下分别为7.8×10-3 S·cm-1和4.7 V(vs Li/Li+). 以其为电解质制备的LiMn2O4∣GPE∣Li聚合物锂离子电池具有较好的循环性能.     

Effect of solvents on properties of polymer gel-electrolyte based on polyester diacrylate

New polymer gel electrolytes based on polyester diacrylates and LiClO₄ salt solutions in organic solvents are developed for lithium ion and lithium polymer batteries with a high ionic conductivity up to 2.7 × 10^?3 Ohm^?1cm^?1 at the room temperature. To choose the optimum liquid electrolyte composition, the dependence is studied of physico-chemical parameters of new gel electrolytes on the composition of the mixture of aprotic organic solvents: ethylene carbonate, propylene carbonate, and λ-butyrolacton. The bulk conductivity of gel electrolytes and exchange currents at the gel electrolyte/Li interface are studied using the electrochemical impedance method in symmetrical cells with two Li electrodes. The glass transition temperature and gel homogeneity are determined using the method of differential scanning calorimetry. It is found that the optimum mixture is that of propylene carbonate and λ-butyrolacton, in which a homogeneous polymer gel is formed in a wide temperature range of ?150 to +50°C.     

Influence of PEG-borate ester on thermal property and ionic conductivity of the polymer electrolyte

We have focused on the poly(ethylene glycol) (PEG)-borate ester as a new type plasticizer for solid polymer electrolyte for lithium ion secondary battery. Adding the PEG-borate ester into the electrolyte shows the increase in the ionic conductivity of the polymer electrolyte. By measuring the glass-transition temperature of the polymer electrolytes with DSC, it is found that the increase in ionic conductivity of the polymer electrolyte is due to the increase in ionic mobility. By investigating the temperature dependence of the ionic conductivity of the polymer electrolytes using William-Landel-Ferry type equation, we considered that the PEG-borate ester does not have any influence for dissociation of Li-salt. This revised version was published online in August 2006 with corrections to the Cover Date.     

聚丁二酸丁二酯与高氯酸锂络合物的结构与离子导电性

本文从丁二酸二甲酯和丁二醇合成了聚丁二酸丁二酯,并以高氯酸锂为掺杂剂制备了固体电解质。FT-IR、NMR、XPS测试发现酯基上的氧原子参与络合。WAXD、DSC等测试分析结果表明:络合物和聚酯的晶体相同;LiClO_4主要溶解在无定形区;盐的溶解降低聚酯的熔点、结晶度和结晶速度,而提高玻璃化温度;在低盐浓度区络合物熔点与盐浓度关系符合Flory-Huggins理论。络合物的电导率随盐浓度变化出现极大值,在低盐浓度区电导率与浓度的对数成线性关系。电解质的导电行为不能简单地为Arrhenius和WLF方程所解释。从扩散角度推导了导电方程,并描述了离子导电过程。     

Composite gel membranes: a new class of improved polymer electrolytes for lithium batteries

Novel composite, gel-type polymer electrolytes have been prepared by dispersing selected ceramic powders into a matrix formed by a lithium salt solution contained in a poly(acrylonitrile) (PAN) network. The electrochemical characterization demonstrates that these new types of composite gel electrolytes have high ionic conductivity, wide electrochemical stability and, particularly, high chemical integrity (no liquid leakage) even at temperatures above ambient. These unique properties make the composite gel membranes particularly suitable as electrolyte separators in lithium ion polymer batteries.     

Synthesis and properties of all solid polymer electrolytes based on poly(vinyl acetate‐co‐acetyl ethylene oxide acrylate)

Poly(acetyl ethylene oxide acrylate‐co‐vinyl acetate) (P(AEOA‐VAc)) was synthesized and used as a host for lithium perchlorate to prepare an all solid polymer electrolyte. Introduction of carbonyl groups into the copolymer increased ionic conductivity. All solid polymer electrolytes based on P(AEOA‐VAc) at 14.3 wt% VAc with 12wt% LiClO₄ showed conductivity as high as 1.2 × 10^?4 S cm^?1 at room temperature. The temperature dependence of the ionic conductivity followed the VTF behavior, indicating that the ion transport was related to segmental movement of the polymer. FTIR was used to investigate the effect of the carbonyl group on ionic conductivity. The interaction between the lithium salt and carbonyl groups accelerated the dissociation of the lithium salt and thus resulted in a maximum ionic conductivity at a salt concentration higher than pure PAEO‐salts system. Copyright © 2010 John Wiley & Sons, Ltd.     

Ionic conductivity of multiarm star polymer/LiClO4 electrolytes

A series of polymer electrolytes based on multiarm polymers and lithium salt complexes were characterized by Fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), and impedance measurement. The relationships of conductivity with salt concentration, temperature, and arm numbers are discussed. It is suggested that the star polymer has a higher solvency and ion transfer ability on lithium salts than on linear polymers. The conductivity maximum appeared at a higher salt concentration ([EO]/[Li] = 4). Impedance measurement suggested that the optimum conductivity was 2 × 10^?4 s · cm^?1. The conductivity increased with temperature and the dependence of ionic conductivity on temperature fits the Arrhenius equation. Among the studied systems, the star polymer with a five arm number performs better than other structures. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 4195–4198, 2004     

交联PEO嵌段共聚物固体电解质的制备及导电性研究

利用低分子聚乙二醇 (PEG ,Mn=6 0 0 )与CH2 Cl2 在碱性条件下通过Williamson反应生成氧亚甲基连接的聚氧化乙烯嵌段聚合物 .1 H NMR表明 ,其分子平均组成以 [CH2 O(CH2 CH2 O) 1 3]为重复单元结构 .适量的2 ,4 二异氰酸甲苯酯 (TDI)与聚合物 锂盐电解质形成交联网络结构 ,具有较好的成膜性能、力学性能与热稳定性能 .在测试温度范围内 ,电导率与温度的关系很好的符合Arrhenius关系式 (σ =Ae-Ea RT) .锂盐浓度不同 ,Arrhenius曲线有一个或两个活化能 (Ea)值出现 .该聚合物掺混LiN(CF3SO2 ) 2 形成的固体电解质具有良好的导电性 ,在EO Li =2 5∶1(摩尔比 )时 ,室温下σ =1 12× 10 - 5S cm ,分解电压可达 5 0V .     

Conductivity and thermal behavior of proton conducting polymer electrolyte based on poly (N-vinyl pyrrolidone)

The polymer electrolytes based on poly N-vinyl pyrrolidone (PVP) and ammonium thiocyanate (NH₄SCN) with different compositions have been prepared by solution casting technique. The amorphous nature of the polymer electrolytes has been confirmed by XRD analysis. The shift in T_g values and the melting temperatures of the PVP-NH₄SCN electrolytes shown by DSC thermo-grams indicate an interaction between the polymer and the salt. The dependence of T_g and conductivity upon salt concentration have been discussed. The conductivity analysis shows that the 20 mol% ammonium thiocyanate doped polymer electrolyte exhibit high ionic conductivity and it has been found to be 1.7 × 10⁻⁴ S cm⁻¹, at room temperature. The conductivity values follow the Arrhenius equation and the activation energy for 20 mol% ammonium thiocyanate doped polymer electrolyte has been found to be 0.52 eV.     

用于锂离子电池聚合物电解质的组成、结构和性能

聚合物电解质是全固态锂离子电池的重要组成部分, 其电导率对电池的性能有很重要的影响.本文综述了聚合物电解质的组成、结构和性能对锂 离子电池导电率影响的最新研究进展,特别是介绍了聚合物-碱金属盐复合电解质和聚离子体电解质两个体系的研究进展.     

聚合物固体电解质中的离子状态与导电机理的研究

制备得到了一种新颖的聚氨酯和丙烯酸酯复合梳形交联聚合物 (Combcross linkedpolymer) ,并以此聚合物为基体加入不同含量的高氯酸锂盐制得一系列聚合物固体电解质 ,其室温电导率可以达到 3 4× 10 - 5S·cm- 1 .通过Raman、DSC、SEM及电性能等研究了电解质中的盐浓度与离子存在状态及离子电导率之间的关系 .结果显示随着盐浓度的增加 ,聚合物固体电解质中离子对的比例和电导率都迅速增加 ,说明离子对 (由多个醚氧原子、阴离子和阳离子组成 )对体系导电起着积极的作用 .