英语翻译对有机聚合物发光材料的研究越来越受到人们的重视,并且有机聚合物具有很多优点,如:良好的加工性能、成膜性能.本论文合成的聚吡咯甲烷,通过紫外光谱分析可知,在200~400nm左右
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英语翻译对有机聚合物发光材料的研究越来越受到人们的重视,并且有机聚合物具有很多优点,如:良好的加工性能、成膜性能.本论文合成的聚吡咯甲烷,通过紫外光谱分析可知,在200~400nm左右
英语翻译
对有机聚合物发光材料的研究越来越受到人们的重视,并且有机聚合物具有很多优点,如:良好的加工性能、成膜性能.本论文合成的聚吡咯甲烷,通过紫外光谱分析可知,在200~400nm左右有明显的光学吸收;通过荧光光谱分析可知,以二氯甲烷作溶剂合成的聚吡咯甲烷激发波长在370nm,发射波长在460nm左右;以1,4-二氧六环作溶剂合成的聚吡咯甲烷激发波长在335nm,发射波长在470nm左右.聚吡咯甲烷是一种典型的发蓝色光的材料.但是在不同溶剂中,样品的发射波长和荧光强度差别比较明显;通过X射线衍射谱分析可知该样品的聚集态是完全非晶态.
英语翻译对有机聚合物发光材料的研究越来越受到人们的重视,并且有机聚合物具有很多优点,如:良好的加工性能、成膜性能.本论文合成的聚吡咯甲烷,通过紫外光谱分析可知,在200~400nm左右
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The research on organic light-emitting polymer materials is paid more and more attention,and organic polymers have many advantages,such as good processing performance,film-forming performance.The polypyrrole methane synthesized in this paper has obvious optical absorption at about 200 400nm,which can be seen from UV spectral analysis.It can also be found by fluorescence spectroscopy that the methylene chloride synthesized using 1,4 - dioxane has an excitation wavelength of 335nm,and an emission wavelength of about 470nm.Polypyrrole methane is a typical blue-emitting materials.But in different solvents,the emission wavelength and fluorescence intensity of the samples has rather obvious difference.In addition X-ray diffraction analysis shows that the aggregation state of the sample is completely amorphous.
Research on organic polymer light-emitting materials have been paid more and more attention, and the organic polymer has many advantages, such as: the film-forming performance, good processing perform...
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Research on organic polymer light-emitting materials have been paid more and more attention, and the organic polymer has many advantages, such as: the film-forming performance, good processing performance. In this paper, the synthesis of polypyrrole methane, by ultraviolet spectroscopy analysis, significant optical absorption at about 200~400nm; the fluorescence spectrum analysis, using dichloromethane as solvent to synthesize polypyrrole methane excitation at the wavelength of 370nm, emission wavelength of around 460nm; to 1,4- two oxygen ring six as solvent to synthesize polypyrrole methane excitation wavelength in 335nm at about 470nm, emission wavelength. Polypyrrole methane is a typical blue light emitting materials. But in different solvents, emission wavelength and fluorescence intensity difference samples is obvious; the X ray diffraction spectrum aggregation analysis indicated that the samples are amorphous.
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The research of organic polymer luminescent material more and more get people's attention, and organic polymer has many advantages, such as: good processing performance, film forming performance. This...
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The research of organic polymer luminescent material more and more get people's attention, and organic polymer has many advantages, such as: good processing performance, film forming performance. This paper synthesized polypyrrole methane by ultraviolet spectrum analysis shows that in 200 ~ 400 nm has obvious optical absorption; By fluorescence spectrum analysis shows that with dichloromethane as solvent to synthesize polypyrrole excitation wavelength at 370 nm, methane emission wavelength at around 460 nm; With 1, 4 - dioxane as solvent to synthesize the polypyrrole excitation wavelength at 335 nm, methane emission peak at about 470 nm. Polypyrrole methane is a kind of typical blue color material. But in different solvents, emission wavelength and fluorescence intensity of samples are the obvious difference; Through X-ray diffraction spectrum analysis on the state of aggregation is completely amorphous sample.对有机聚合物发光材料的研究越来越受到人们的重视,并且有机聚合物具有很多优点,如:良好的加工性能、成膜性能。本论文合成的聚吡咯甲烷,通过紫外光谱分析可知,在200~400nm左右有明显的光学吸收;通过荧光光谱分析可知,以二氯甲烷作溶剂合成的聚吡咯甲烷激发波长在370nm,发射波长在460nm左右;以1,4-二氧六环作溶剂合成的聚吡咯甲烷激发波长在335nm,发射波长在470nm左右。聚吡咯甲烷是一种典型的发蓝色光的材料。但是在不同溶剂中,样品的发射波长和荧光强度差别比较明显;通过X射线衍射谱分析可知该样品的聚集态是完全非晶态。
望采纳,谢谢!
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