Also, a growth model of PANI film for ISPHP is established.
本文提出了一个高压条件下的PANI薄膜生长模型。
It studied the morphology, thickness and conductivity of PANI films.
研究了薄膜的形貌、厚度及电导率。
The surface of PANI was modified by using octamethylcyclotetrasiloxane (D4).
采用八甲基环四硅氧烷(D4)对聚苯胺(PANI)进行表面修饰。
Polyanilin (PANI) and metal phthalocyanine are two typical representations of it.
聚苯胺(PANI)和金属酞菁是其中的典型代表。
The morphology characteristic of PANI/SFC60 composite takes on porous powder clusters.
SFC60复合材料的形貌特征表现为多孔性、质地疏松的颗粒状。
This will provide insights in the synthesis of hollow nanospheres of PANI derivatives.
该策略为聚苯胺衍尘物纳米空心球的可控合成提供了新思路。
Polyaniline (PANI) is one of the most intensively researched conductive polymer materials.
聚苯胺(PANI)是研究最为广泛的导电高分子材料之一。
Also, the composition of the electrolyte was found to influence the cyclic stability of PANI.
同时,考察了电解质组分对聚苯胺电致变色稳定性的影响。
The film of polyaniline(PANI) doped with phthalocyanine copper acid was successfully prepared.
成功制备了酞菁铜羧酸掺杂聚苯胺(PANI)薄膜。
Otherwise, the effect of different PANI content on the properties of hybrid films was studied.
本文还研究了不同的PANI含量对薄膜透过率和方块电阻的影响。
The oxidant concentration had the great influence on the electrical property of PANI/ABS film.
且氧化剂浓度对膜的电性能影响最大。
The conducting PANI films were synthesized by in situ polymerization under various high pressures.
在不同压力条件下用原位聚合法制备了导电聚苯胺薄膜。
The dielectric constant and dielectric loss of the composites rise with increasing the content of PANI.
复合材料的介电常数和介电损耗随pani含量的增加而上升。
Dr Pani said: 'It is just 25 to 30 per cent fewer calories. It is like not eating a cake at the end of the meal.
Pani博士表示:“这项实验仅仅需要减少25 - 30%的卡路里,只是让你感觉像是没吃餐后甜点一样。”
Fourier transform Infrared (FTIR) spectrum showed that there exist charge transfer between the PANI and TCNQ molecules in the film.
傅里叶变换红外光谱(FTIR)分析表明PANI -TCNQ复合薄膜中的PANI分子与TCNQ分子之间发生了电荷转移。
In this thesis, PANI film was prepared by electrochemical method, and its nucleation mechanism and growth process were also studied.
本文采用电化学方法制备聚苯胺薄膜,并对其成核机理和生长过程进行了研究。
The Uv-vis spectra showed that PANI upon doping had stronger absorption in the Uv region and broader absorption in the visible region.
紫外可见光谱说明酞菁铜羧酸掺杂后pani在紫外区有强吸收峰,在可见光区吸收变宽。
XPS shows that the doping degree of PANI microtubes is higher than that of PANI bulk sample, due to huge surface area of PANI microtubes.
XPS分析表明聚苯胺微管具有比其本体试样更高的掺杂度,这是由于聚苯胺微管极大的比表面积有利于掺杂及模板孔壁阻碍了掺杂剂挥发;
Solution re-doped PANI and mechanical mixing re-doped PANI were used and researched by the technique route of dope -de-dope-re-dope PANI.
采用掺杂-脱掺杂-再掺杂的技术路线,分别用溶液法及机械研磨法对本征态聚苯胺进行了再掺杂研究。
The sheet resistance of films decreased with an increase of PANI content, while visible light transmittance of the hybrid films also declined.
随着PANI含量的增加,薄膜的可见光透过率逐渐下降,方块电阻也降低。
The effects of the content of the dopant, moulding pressure and temperature and the content of oxidant on the conductivity of PANI were studied.
研究了掺杂剂用量、模压压力、模压温度、氧化剂用量对聚苯胺盐电导率的影响。
However, the main restriction upon the commercialization process of PANI lies in its weak solubility, poor processing performance and lower conductivity.
但是目前限制聚苯胺商业化进程的主要问题是其溶解性和加工性能差、电导率不够高。
Polyaniline (PANI) is one of the most commercially valuable conducting polymers duo to its low cost, ease of synthesis, excellent environmental stability.
聚苯胺(PANI)因其原料便宜,合成简单,稳定性及抗氧化性能良好,成为最具有商业价值的导电高分子材料之一。
The results show that the polarization and piezoelectric properties of 0-3 composites can effectively increase with an appropriate volume fraction of PANI.
结果表明:适量PANI能够有效地提高0 - 3型复合材料的极化和压电性能。
As one of the most important conductive polymers, attention is widely paid to the research and application of polyaniline (PANI) composites in recent years.
聚苯胺(PANI)是最重要的导电聚合物之一,近年来,其复合材料的研究和应用越来越受到重视。
As one of the most important conductive polymers, attention is widely paid to the research and application of polyaniline (PANI) composites in recent years.
聚苯胺(PANI)是最重要的导电聚合物之一,近年来,其复合材料的研究和应用越来越受到重视。
应用推荐