1.
A Fundamental Study on the Corrosion Electrochemistry of the Electrically Conductive Polymer;
导电高分子材料腐蚀电化学基础研究
2.
Study on Conductive Multiphase Polymer Composites Filled with Carbon Black;
碳黑填充多相导电高分子材料的研制
3.
Study on the Effectiveness of Electromagnetic Interference Shielding of Electric Conductive Polymer Composites;
导电高分子材料在电磁屏蔽的效能分析
4.
Novel Conducting Polymers Electrosynthses and Spectralanalysis Study;
新型导电高分子材料的电化学合成及其光谱分析研究
5.
Applications of Conductive Polymers in Molecular Imprinting and Antioxidant;
导电高分子材料在分子印迹技术和抗氧化剂研究中的应用
6.
Electric conducting polymer is one of the most promising materials for electromagnetic interference (EMI) shielding.
导电高分子材料在电磁屏蔽领域有着广阔的应用前景。
7.
The PTC and NTC Effects of Conductive Polymer Composites;
导电高分子复合材料的PTC/NTC效应研究
8.
Synthesis of Functional Polymer Material, Fine Chemicals, Modification of Polymer Surface, Conductive Polymer and Nano Materials.
机能性高分子材料合成,特用化学品之合成,高分子表面之改质,导电性高分子材料及奈米材料。
9.
RESEARCH PROGRESS OF REDUCING THE PERCOLATION THRESHOLD FOR CONDUCTIVE COMPOSITES
降低导电高分子复合材料渗流阈值的研究进展
10.
Research progress of the synthetic methods for conducting polymer nanomaterials
导电高分子纳米材料的制备方法研究现状
11.
Photoelectric Polymer, High performance Polymer and Polymer Membranes.
高分子光电材料,高性能高分子材料,高分子薄膜材料,萤光材料及发光材料。
12.
Conductivity Research Advance and Application of Ion Implanted Polymer;
离子注入高分子材料的导电特性研究动态及应用
13.
Research Progress of Thermal Conductive and Dielectric Polymer Composites
导热绝缘高分子复合材料的研究进展
14.
Actuators and Memory Devices Based on Nano-materials of Conducting Polymers;
基于导电高分子纳米材料的驱动器件和存储器件的研制
15.
Synthesis and Characterization of Nitrogenous Conducting Polymer Micro/nanostructured Materials;
含氮类导电高分子微/纳米结构材料的制备及表征
16.
Correlation between Rheological Behavior and Conductive Property of Carbon Black Filled Polymer Composites;
高分子/炭黑复合材料流变行为—导电功能的相关性研究
17.
Preparation and Characterization of M-type Nano-Strontium Ferrite/Conductive Polymer Composite
M型纳米锶铁氧体/导电高分子复合材料的合成与表征
18.
Progress in the Study of the Percolation Threshold Reduction for Conductive Polymer Composite by Micromorphology Controlling
通过微观形态控制降低导电高分子复合材料逾渗值的研究进展