As a replenishment for these deposited ions, the metal from the anode is dissolved and goes into the solution and balances the ionic potential.
作为这些沉淀离子的补充,来自阳极的金属被溶解并进入溶液平衡离子势能。
The results indicate that the interlayer space is influenced by the layers of water molecules which is decided by ionic potential of interlayer cations.
结果表明:蛭石晶层的层间距主要受层间水分子层数的影响,而后者又主要由层间阳离子的离子势大小决定。
With the increase of ionic potential, the dehydrated temperature and the bending vibration frequency of interlayer water increase, and strength vibration frequency decreases.
随着层间阳离子离子势的增大,其层间水脱失温度增高,层间水的对称伸缩振动频率降低,弯曲振动频率提高。
Ionic liquid, as a solvent and catalyst of oxidation, has displayed many potential benefits.
离子液体用作氧化反应的溶剂,已经显示了许多潜在的优点。
Cyclic voltammetry, electrochemical impedance spectrometry and potential step were used to test the electrochemical performance of these ionic liquid electrolytes on porous carbon electrode.
并通过循环伏安、交流阻抗、电势阶跃等电化学方法,对它们在多孔碳电极中的电化学性能进行了研究。
Completely ionic composition is a significant feature of ionic liquids that surely possess excellent conductivity, and is being considered as potential "green" electrochemical materials.
前言:离子液体独特的全离子结构无疑会导致良好的导电性,成为有潜力的绿色电化学材料。
Finally the great potential of industrial application of acidic ionic liquids is discussed.
展望了酸性离子液体巨大的工业应用前景。
And the parameters include ionic specific conductivity, electronic specific conductivity, transference number and decomposition potential and so on.
参数包括离子电导率,电子电导率,迁移数和分解电压等。
Objective: To study the membrane ionic basis of action potential prolongation of hypertrophied left ventricular myocytes in spontaneously hypertensive rats (SHR ).
目的:研究自发性高血压大鼠(SHR)左心室肌细胞动作电位时程延长的膜离子流基础。
Several kinds of ionic liquid electrolytes were prepared, and their stable potential windows were tested by linear potential sweep.
制备了数种离子液体及离子液体有机溶液电解质,用线性电位扫描法测试了它们的电化学窗口;
The application of ionic liquids as reaction medium for lipase-catalyzed biodiesel synthesis with high yield would be a highly potential possibility.
综述了离子液体作为潜在的反应介质应用于脂肪酶催化高产生物柴油的前景。
AIM: To reveal ionic current basis of the change of transmembrane potential induced by oxygen free radical.
摘要目的:揭示氧自由基导致跨膜电位变化的离子电流基础。
AIM: To reveal ionic current basis of the change of transmembrane potential induced by oxygen free radical.
摘要目的:揭示氧自由基导致跨膜电位变化的离子电流基础。
应用推荐