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1.Prosecutors also reaffirmed that AMD had no knowledge of Pani's actions and did not benefit from his theft.
检举人同时也确认了AMD对潘尼的所为并不知情,从中也没有任何获益。
2.Polyaniline (PANI) has a good conductivity, but the forming of the poor, which greatly restricted its application.
聚苯胺(PANI)具有良好的导电性,但成型性较差,这大大限制了它的应用。
3.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。
4.PANI is believed to be a kind of conducting polymer material with good third-order nonlinear optical property.
聚苯胺是一类公认的具有较好的三阶非线性光学性质的导电高分子材料。
5.The dissolvable capability of the doped PANI in the organic solvent and water was also researched.
调查了生成的掺杂态聚苯胺微粒子在有机溶剂和水中的溶解性能。
6.The following results indicate that PANI is an ideal material for the construction of biosensor.
结果表明:此种方法合成的聚苯胺是制作酶生物传感器的理想材料。
7.The results show that re-dope PANI has good conductivity, solubility and better thermal stability than literature.
结果表明:溶液法再掺杂聚苯胺有良好的电导率、溶解性及热稳定性。
8.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。
9.So we will improve the properties of PANI through changing the experiment conditions.
我们通过改变实验条件来提高聚苯胺的性能。
10.Spectroelectrochemical measurements were performed in order to obtain the coloration efficiencies of both WOJ and PAni thin films.
三氧化钨以及聚苯胺薄膜的著色效率可由光谱电化学的量测获得。