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。
2
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。
3
The nonlinear parameter identification of fuel cellpolarization curve was converted into two sub-problems of linear least square identification based on interval segmentation technique.