钒流电池用磺化聚芴醚酮-聚苯胺原位表面复合质子交换膜的制备

质子交换膜是液流电池的核心部件之一。文中以磺化聚芴醚酮(SPFEK)膜为基膜,采用稀溶液化学氧化聚合法在SPFEK膜表面原位复合一层聚苯胺,通过调整苯胺(An)单体的浓度,制得SPFEK/PANI复合膜。采用扫描电镜与红外光谱表征了复合膜的结构,表明聚苯胺已经成功地在SPFEK膜表面复合。通过钒流单电池的性能测试,结果表明,当苯胺单体的浓度为0.05 mol/L时,所制备的复合质子交换膜具有最高的H+传导选择性,所组装的钒流电池具有最好的自放电性能,在充放电流为50 m A/cm~2时,电池的库仑效率、电压效率、能量效率分别达到95%,83%,75%。     

无纺布支撑微交联PMMA基凝胶聚合物电解质的制备与性能研究

以乙二醇二甲基丙烯酸酯(EGDMA))和聚乙二醇二丙烯酸酯(PEGDA)作交联剂,制备了PP无纺布支撑微交联PMMA基凝胶聚合物电解质。通过扫描电子显微镜、热重分析仪、电化学工作站和万能试验机对其表观形貌、热稳定性、室温离子电导率和拉伸强度进行了表征及测试。结果表明,PEG600DA和PEG200DA能有效提高体系的室温离子电导率,均从2.2 m S/cm提高到3.0 m S/cm左右;PEG400DA和PEG600DA能显著提高体系的拉伸强度,用量为0.3%和0.2%时,拉伸强度分别为11.8 MPa和12.4MPa,与对照相比分别提高39.1%和45.3%。     

Aliphatic Polycarbonate‐Based Solid‐State Polymer Electrolytes for Advanced Lithium Batteries: Advances and Perspective

Conventional liquid electrolytes based lithium‐ion batteries (LIBs) might suffer from serious safety hazards. Solid‐state polymer electrolytes (SPEs) are very promising candidate with high security for advanced LIBs. However, the quintessential frailties of pristine polyethylene oxide/lithium salts SPEs are poor ionic conductivity (≈10⁻⁸ S cm⁻¹) at 25 °C and narrow electrochemical window (<4 V). Many innovative researches are carried out to enhance their lithium‐ion conductivity (10⁻⁴ S cm⁻¹ at 25 °C), which is still far from meeting the needs of high‐performance power LIBs at ambient temperature. Therefore, it is a pressing urgency of exploring novel polymer host materials for advanced SPEs aimed to develop high‐performance solid lithium batteries. Aliphatic polycarbonate, an emerging and promising solid polymer electrolyte, has attracted much attention of academia and industry. The amorphous structure, flexible chain segments, and high dielectric constant endow this class of polymer electrolyte excellent comprehensive performance especially in ionic conductivity, electrochemical stability, and thermally dimensional stability. To date, many types of aliphatic polycarbonate solid polymer electrolyte are discovered. Herein, the latest developments on aliphatic polycarbonate SPEs for solid‐state lithium batteries are summarized. Finally, main challenges and perspective of aliphatic polycarbonate solid polymer electrolytes are illustrated at the end of this review.     

Mesoscale models of conductivity in polymeric electrolytes—A comparative study

The studies of conductivity behavior of composite polymeric electrolytes (CPE) have been widely realized for about 15 years. There is, however, a lack of a versatile and efficient model of conductivity in these systems. The effective medium approach was introduced to predict the conductivity of systems according to some previously defined mixing rules. The main limitation of this method, however, is the fact that each new composite microstructure forces a new mixing rule development. This paper presents the random resistor network approach as an alternative method to the effective medium theory based approach. The presented comparison of both methods is based on both dc and ac simulated conductivity data. Some experimental data are introduced to compare the models with the conductivity values obtained for real samples.     

陶瓷原料中高含量钛、铁的快速连续测定

研究提出了一份试液中，用两种指示剂、一种标准溶液快速连续测定钛、铁的新方法。即在含有少量盐酸的硫、磷混酸介质中，用铝片将钛（Ⅳ）、铁（Ⅲ）分别还原成钛（Ⅲ）、铁（Ⅱ）；然后以中性红作示剂，在锰（Ⅱ）的催化下，用重铬酸钾标准溶液滴定铁（Ⅱ）。在陶瓷的料高含量钛、铁的分析中结果满意。     

一种环保化学储能电池——钒氧化还原液流电池

可再生能源需要性能优良的储能电池与之配套，因此，研究和开发价廉、高效率的储能系统是十分必要的。本文通过介绍钒氧化还原液流电池的原理和特点，指出钒电池是一种潜力巨大的新型环保储能电池。同时介绍钒电池制备和应用时的三大技术关键及一定的解决方法。     

Inside Front Cover: Photonic Crystal Structures as a Basis for a Three‐Dimensionally Interpenetrating Electrochemical‐Cell System (Adv. Mater. 13/2006)

The inside cover shows an SEM image of a 3D‐interpenetrating electrochemical cell with submicrometer features, as reported by Stein and coworkers on p. 1750. The pores of an inverse‐opal carbon electrode are coated with a conformal layer of a polymer separator and infiltrated with vanadia to form the opposite electrode after lithiation. The idealized scheme illustrates lithium‐ion transport between the electrodes through the polymer membrane.     

SiO2对金属锂盐聚合物电解质导电作用的影响

采用溶液浇注法制备了PEO基聚合物电解质,测定了该类电解质的电导率,并研究了温度、SiO2的颗粒度及表面性能对聚环氧乙烯/高氯酸锂(PEO/LiClO4)聚合物电解质体系电导率的影响.结果表明PEO-LiClO4-10%SiO2复合型聚合物电解质的室温电导率达到了1.033×10-4S/cm,同时对该电解质进行了差热分析,发现加入SiO2后,PEO/LiClO4体系熔融温度降低,非晶相含量增加,有利于提高离子电导率.