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1)  perylene monoimide
苝单酰亚胺
1.
The research of synthesis, propertis and applications of these perylene bisimide derivatives together with the synthesis of perylene monoimide derivatives have been reviewed in Chapter 1.
第一章,综述了苝二酰亚胺的合成、性质、应用及苝单酰亚胺衍生物的合成。
2)  Perylene bisimide
苝酰亚胺
1.
In this paper, three perylene bisimides with carboxylic group were synthesized, and their spectra properties were studied.
本文合成了三种含有羧基的苝酰亚胺化合物,,并研究了其紫外-可见吸收光谱及荧光光谱的特征;研究表明,苝环上1,6,7,12位取代基的引入,使得所合成的苝酰亚胺类化合物的最大吸收波长分别红移了50nm、49nm;Stokes位移变大30、31nm,而荧光量子产率的下降,但不是很明显。
2.
Recently,perylene bisimide derivatives have been extensively studied as one of the most functional materials,providing prospects for applications in organic solar cells,because of their cheap price,good thermal and photochemical stability,high electron affinity,high absorption and fluorescence quantum yield.
最近苝酰亚胺衍生物在太阳电池材料的研究开发中受到越来越多的重视,一方面是苝酰亚胺类材料价格便宜、稳定性高;另一方面苝酰亚胺衍生物含有大的共苯环平面结构和两个亚胺环结构,具有高的电子亲和势和很强的得电子能力,是一种典型的n型材料。
3.
In this thesis,perylene bisimide-bridged bis-(permethyl-β-cyclodextrins),perylene bisimide-bridged bis-(permethyl-ethylenediamino-β-cyclodextrins), naphthalene diimide and pyromellitimide bridged permethyl-β-cyclodextrin,and a series of calixarene derivatives were synthesized.
本文合成了苝酰亚胺桥联全甲基化-β-环糊精衍生物、萘酰亚胺和苯酰亚胺桥联全甲基化-β-环糊精衍生物以及杯芳烃的衍生物,研究了其在自组装、客体识别和光诱导电子转移方面的应用。
3)  perylene diimide
苝酰亚胺
1.
Electron mobility of two fluorinated perylene diimide compounds was measured by the method of space-charge-limited current: one was N,N'-bisperfluorophenyl-3,4,9,10-perylenetetracarboxylic diimide (1), the other was N,N'-bis(1,1-dihydroperfluorooctyl)-3,4,9,10-perylenetetracarboxylic diimide (2).
利用空间电荷限制电流(SCLC)法测试了二种氟代苝酰亚胺的电子迁移率,一种是N,N'-二(五氟代苯基)-3,4,9,10-苝四羧基二酰亚胺(1),另一种是N,N'-二(1,1-二氢十五氟代辛基)-3,4,9,10-苝四羧基二酰亚胺(2)。
4)  perylene diimides
苝酰亚胺
1.
In this dissertation, based on molecular and material designs, electron-deficient nitrogen heterocycles were introduced to the traditional organic n-type materials of perylene diimides.
本论文从分子设计和材料设计入手,在传统的有机电子传输材料——苝酰亚胺分子上引入缺电子性的氮杂环,研究氮杂环对材料的能级结构、电子受体能力及其稳定性的影响规律;通过化学修饰,设计合成了溶解性得到改善的不对称的苝酰亚胺分子,旨在获得同时具有高性能和溶液加工性的有机半导体材料。
5)  perylene diimide
苝二酰亚胺
1.
In recent years,perylene diimide and(its derivatives) have been well applied to organic photovoltaic cells.
本文介绍了苝二酰亚胺及其各种衍生物的结构和性质,综述了其用作有机光伏受体材料,包括小分子型苝二酰亚胺材料、含苝二酰亚胺受体单元的给体-受体双功能分子和含苝二酰亚胺受体单元的给体-受体双缆型聚合物材料的最新研究进展。
2.
Dye-sensitized TiO_2 photocatalysts using perylene diimide(ab.
采用水热法制备了苝二酰亚胺(PTCDI)敏化的光催化剂TiO2/PTCDI以及PTCDI和酞菁铜(CuPc)共敏化的可见光光催化剂(TiO2/PTCDI)-CuPc。
6)  perylene polyimide
苝聚酰亚胺
1.
Study on photoelectric properties of perylene polyimide;
苝聚酰亚胺光电性能研究(英)
2.
The perylene polyimide containing donor-acceptor unit was designed, synthesized and characterized by elemental analysis, UV-visible spectrum, gel permeation chromatograph, nuclear magnetic resonance, infrared spectrum, and thermogravimetry.
设计、合成并表征了含有p-n(供电子-吸电子)单元的苝聚酰亚胺PPI,并研究了其作为敏化电极材料的光电池的性能。
补充资料:苝酐
分子式:C24H8O6
分子量:392.32
CAS号:128-69-8

性质:棕红色粉末。熔点>300℃。溶于碱溶液。

制备方法:由1,8-萘酰亚胺经碱熔得到四羧酰亚胺,然后用浓硫酸脱氨去水成酐。原料消耗定额:1,8-萘酐(制取1,8-萘酰亚胺的原料)2120kg/t、氢氧化钾(96%)6000kg/t、浓硫酸20000kg/t。

用途:该品为染料中间体,用于合成还原大红K、还原大红R、永固红BL等,还用于合成树脂。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条