液体电池

用液体电池改进安培力实验

Improved experiment of Ampere force with liquid battery

离子液体在电池中的应用进展

The development and application of ionic liquids in batteries

所建模型适合于所有液体电化学电池。

The model suits to all liquids electro-chemical battery .

设计了一个用两支离子选择性电极构成的无液体接界电池应用于电解质-水二元体系及电解质-氨基酸-水三元体系的电动势的测定。

A non-liquid-junction electrochemical cell composed by two ion selectivity electrodes was designed to measure the electromotive force of electrolyte-water duality system and electrolyte-amino acid-water ternary system .

目前，成本和性能仍然是制约直接液体燃料电池大规模商业化的两个突出问题，而阳极催化剂的活性及稳定性对此起着至关重要的作用。

At present , the cost and the performance as two outstanding problems , which were seriously affected by the activity and stability of the anodic catalysts , still restricted direct liquid fuel battery mass commercialization .

直接液体甲醇燃料电池的数学模型

Mathematical Model of a Direct Methanol Fuel Cell ( DMFC ) Magnetic Liquid

一种可高温运行的离子液体电解质燃料电池

Ionic Liquid as Fuel Cell Electrolyte at Elevated Temperature

直接甲醇燃料电池（DMFC）是至今研究得最多的用液体燃料的燃料电池。

The direct methanol fuel cell ( DMFC ) powered by a liquid fuel has been attracting much attention in recent decades .

此项工作为离子液体作为电解质在电池中的应用奠定了基础。

The above results will provide a foundation for ionic liquid applying in the battery as electrolyte .

聚合物锂离子电池是在液体锂锂离子电池基础上发展起来的新一代可充电电池。

Polymer lithium-ion battery is a new generation of rechargeable battery developed on the basis of the liquid lithium secondary battery .

作为一类对空气稳定的室温熔盐，基于1,3-烷基咪唑阳离子的离子液体已广泛用作电池和电化学电容器的电解液。

Air stable 1,3-dialkyl imidazolium based room-temperature molten salts have been extensively utilized for a variety of electrolytes in batteries and capacitor .

本文比较了液体电解质锂离子电池和固体可充性锂电池的性能和技术难点，提醒有关方面开发全塑固体锂离子电池。

The technical performances and batteries for lithium - ion cells with liquid electrolyte and rechargeable lithium cells with solid polymer electrolyte were compared . The exploitation of all plastics solid lithium - ion cell was suggested .

离子液体是一种性能特殊的绿色环保电解质，研究离子液体在电池中的应用，对开发新的电池品种，提高电池性能具有重要的理论与应用价值。

Ionic liquid is a novel and green electrolyte . Studying of the application of ionic liquid in the cell will provide academic and applied values in exploiting new types of batteries and improving the capability of batteries .