1.
Membrane Potential of Charged Porous Membranes in Single 1-1 Electrolyte Solutions
1-1型单组分盐溶液中荷电膜膜电位的研究
2.
Transport Properties of Charged Membranes in the Treatment of Salt Lake Brines;
荷电膜在盐湖卤水中的传递性质研究
3.
Study on Preparation and Performance of Charged Polymer Porous Membranes
高分子多孔荷电膜的制备及性能研究
4.
The Properties of Charged Membranes by Ultraviolet Irradiation Induced Graft Copolymerization;
紫外照射接枝法制备荷电膜及其性能研究
5.
Charge Transport Mechanism and Space Charge Characteristic in Polyimide Film
聚酰亚胺薄膜中电荷输运机理和空间电荷特性
6.
Variable charge molecular dynamics simulations of the intergranular films in SiC
SiC晶界薄膜的变电荷分子动力学模拟
7.
Effect of NDQ on the Negative Charge of Red Blood Cell and Endothelial Cell
尿毒清对红细胞膜和内皮细胞膜负电荷的影响
8.
Trap capture properties of space charge and void breakdown charge in a cellular polypropylene electret film
孔洞聚丙烯驻极体膜中空间电荷与孔洞击穿电荷的俘获特性
9.
Study on Fabrication of Charged Polyethersulphone Ultrafiltration Membrane and Its Surface Electrokinetic Phenomena;
聚醚砜超滤膜荷电化及其表面动电现象的研究
10.
ζ Potentials and Pore Surface Charge Densities of the Porous Polymer Membranes (PMP-013MF Membrane);
高分子MF膜的微孔表面ζ电位和电荷密度
11.
Analysis of the Space Charge Capacitance of Bipolar Semiconductor Passive Films(Ⅱ)
双极性半导体钝化膜空间电荷电容分析(Ⅱ)
12.
Analysis of the Space Charge Capacitance of Bipolar Semiconductor Passive Films
双极性半导体钝化膜空间电荷电容分析
13.
The Preparation and Characterizations of Novel Hybrid Charged (Mosaic) Membranes (Materials);
新型荷电杂化(镶嵌)膜(材料)的制备与表征
14.
An Investigation on the Preparation Technology of Polyethersolfone-Polyamide Composite Charged Nanofiltration Membrane;
聚醚砜-聚酰胺复合荷电纳滤膜的制备技术研究
15.
Study of Charge Carrier Transport in Organic Semiconductor Thin-film Devices;
有机半导体薄膜器件中的电荷输运研究
16.
Structure Control and Properties Research of Charged Nanofiltration Membranes with Low Operation Pressure;
低压荷电纳滤膜的结构控制及性能研究
17.
Preparation and Characterization of Positively Charged Membranes Via in-situ Amination
原位胺化法荷正电膜的制备及性能表征
18.
Nano-structure enhanced charge separation in optically excited TiOPc/C_(60) thin films
纳米结构C_(60)薄膜对TiOPc电荷分离的增强作用