Blood ingredients were determined by the blood cell analyzer, and erythrocyte membrane fluidity and microviscosity were measured by fluorescence polarization techniques.
利用血细胞分析仪进行血液成分测定,采用荧光偏振法测定红细胞膜流动性和微黏度。
Blood ingredients were determined by a blood cell analyzer, and erythrocyte membrane fluidity and microviscosity were measured by fluorescence polarization technique.
利用血细胞分析仪进行血液成分测定,采用荧光偏振法测定红细胞膜流动性和微黏度。
The nonlinear parameter identification of fuel cell polarization curve was converted into two sub-problems of linear least square identification based on interval segmentation technique.
基于区间分段思想,将极化曲线非线性参数辨识转化为两个线性最小二乘辨识子问题。
The study of different area polarization of bi-polar plate flow field PEM fuel cell could be a very good diagnosing tool to verify the engineering design of flow field of bi-polar plate.
质子交换膜燃料电池双极板导流场的不同区域极化研究可以诊断导流场工程设计的合理性。
This led Cajal to formulate the law of dynamic polarization, according to which information flows in one direction through a neuron, from the dendrites, through the cell body, to the axon.
这导致了卡哈尔建立他的动态极化法则,这个法则表明,信息在神经元上是单向传递,从树突,经过胞体,到达轴突。
The results of measurements on paste type R20 battery showed that Zn electrode polarization played an important role on the sharp drop of cell voltage near the end of the discharge.
本文给出R20糊式电池测量实例。这实例表明锌电极极化对放电后期电池电压突降的影响是重要的。
Consequently, it is necessary to optimize the deposition processes related to interfacial morphology in order to reduce the cell polarization loss.
因此,为了降低电池极化损失,必须优化沉积工艺对界面形貌的影响。
Regardless of hysteresis of air system, the main factor that influences dynamic response of fuel cell is diffusion concentration polarization, which restricts the change rate of stack current.
不考虑空气系统的时间滞后,影响电池动态响应时间的主要因素为扩散浓差极化,它限制了电流的变化率。
Profound immunologic changes occur during pregnancy, involving a polarization of t helper cells towards a dominance of Th2 and regulatory t cell effector responses in both mother and fetus.
意义深远的免疫性的改变发生在怀孕期间,对于在母亲和胎儿中多数的th2和调整的t细胞效应器都反映包括了th细胞的极化。
Within the cell membrane and sodium-particle and then retreat to the cell membrane surface to further increase the polarization, so that more sodium cation to enter the cell membrane.
而细胞膜内钠的阳粒子则又使细胞膜表面的退极化现象进一步加重,从而使更多的钠阳离子得以进入细胞膜。
Within the cell membrane and sodium-particle and then retreat to the cell membrane surface to further increase the polarization, so that more sodium cation to enter the cell membrane.
而细胞膜内钠的阳粒子则又使细胞膜表面的退极化现象进一步加重,从而使更多的钠阳离子得以进入细胞膜。
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