| 1. | Studies on ethylene catalytic sensor based on solid polymer electrolyte
低温固态电解质乙烯催化传感技术研究 |
| 2. | Advanced electro - responsive materials based on solid polymer electrolyte membrane
基于高分子电解质膜的电场响应新材料 |
| 3. | The effect of solid solution of inorganic saltson the conductivity of solid polymer electrolytes
无机盐固熔体对高分子固体电解质电导率的影响 |
| 4. | Poly ( acrylic acid - acrylamide ) - alkali metal salt complex is a new kind of solid polymer electrolytes
聚(丙烯酸-丙烯酰胺) -碱金属盐复合物是一种新型高分子固体电解质。 |
| 5. | With the development of solid polymer electrolyte , lithium and its alloys may be the promising anode materials
随着固体电解质的不断研究,锂金属及其合金有可能成为最有前景的负极材料。 |
| 6. | The emphasis is put on the electrochemical no ( subscript x ) sensors and the feasibility is dicussed for determination of nitrogen oxides using solid polymer electrolyte
重点讨论了氮氧化物电化学传感器,并研究了利用固体聚合物作为电解质进行氮氧化物气体检测的可行性。 |
| 7. | On the basis of the preferential sorption - capillary flow mechanism proposed by sourirajan , the membrane interfacial equilibrium condition in reverse osmosis can be simulated by the hplc experiment . the hplc data on retention times can be used for quantitatively characterizing the dynamic nature on solid polymer membrane surface and physicochemical properties of polymer - solution interface . the experimental technique in this paper can offer definite guidelines for the choice of appropriate membrane material and the better understanding of reverse osmosis separation mechanism
本论文根据索里拉金( sourirajan )提出的“优先吸附?毛细孔流”机理作为选择膜材料的理论依据,用高效液相色谱为手段,模拟反渗透实验平衡条件,确定乙基纤维素固膜材料界面的动力学参数以及求得表征高分子材料在溶液界面上的特性参数,为预测膜材料的化学性质和探讨反渗透分离机理提供了有效手段。 |
