1) Circlewise conjugated molecule
环共轭分子
2) conjugated molecule
共轭分子
1.
On the basis of HMO theory, this article introduces a basic solution method to calculate wave function of degenerate energy level for conjugated molecules, and some examples were given in it.
本文利用基础解系方法,用HMO法确定共轭分子简并能级波函数,并给出了几个典型实例。
2.
In this paper, it is proved that molecular orbitals and energylevels of all heteronuclei conjugated molecules Can be derived from those ofthree types of heteronuclei chain-conjugated molecules.
将含杂共轭分子的轨道和能级问题归结为三种直链含杂共轭分子的本征值求解。
3) heterocyclic conjugated conducting polymer
杂环共轭导电高分子
5) conjugated polymer
共轭高分子
1.
A conjugated polymer PF/TiO_2 complex nanomaterials was prepared via in-situ acid-catalyzed polymerization of furancarbinol(F) monomer on the surface of TiO_2 nanoparticles,followed by calcination at proper temperature,and characterized by TEM,FTIR and UV-Vis techniques in regard to its size,structure and UV-Vis absorption property.
用糠醇单体在TiO2纳米粒子表面的原位酸催化聚合,经适当的热活化处理,制备了共轭高分子PF/TiO2纳米复合催化材料,用TEM、FTIR、UV-V is等技术对其尺寸、结构和光吸收特性进行了表征。
2.
A new type of ZnO/conjugated polymer(P) complex particles was successfully designed and(prepared) from the precursors PVC and ZnCl_(2),and used as a catalyst to decolorize dye methylene blue(MB).
以PVC和ZnC l2为前驱物,利用一种简单、快速的方法制备了ZnO/共轭高分子(P)复合微粒,并通过XRD、IR和UV-V is等技术对其进行了表征。
6) conjugated polymers
共轭高分子
1.
The sensing mechanism can be variable with different conjugated polymers used.
基于不同类型、不同性质的共轭高分子所设计的传感策略特色各异,功能也不尽相同,例如:利用共轭高分子可以与某些电子/能量受体之间发生电子/能量转移的特点,可以使传感器的检测信号得到数百万倍的放大,从而极大地提高检测的灵敏度;利用共轭高分子的光学性质随构象变化而变化的特点,则可以实现对靶介导的生物分子的构象或结构转变的检测。
