So we developed the study on structural chemistry of Cu and Mn coordination polymers with substituted phenoxyacetyl ligands.
因此,我们开展了以水杨醛缩取代苯氧乙酰腙的铜、锰配位单元为节点的配位聚合物的结构化学的研究。
So, chemists have been pursuing to design and synthesize the expected structures of coordination polymers with excellent properties.
因此,有目的的控制合成具有预期结构与性能的配位聚合物一直是化学家所追求的目标。
Three dimensional coordination polymers show self defocusing or self focusing effects depending on the valence shell structures of the central ions.
三维结构配位聚合物的自聚焦或自散焦效应主要受中心金属离子价层电子构型的影响。
The geometric configuration of ligand and the coordination tendency of metal cation should be considered when constructing the coordination polymers.
构筑配位聚合物时首先要考虑配体的几何构型和金属离子的配位倾向性。
The research on transition metal coordination polymers not only connects inorganic and organic chemistry but also involves basic theory and applications.
过渡金属配位聚合物的研究,不仅沟通了无机与有机化学的研究,而且集基础研究与应用研究于一体。
Recently, people have synthesized a lot of metal-organic coordination polymers with novel topological structure by using N-heterocyclic carboxylic acid ligands.
近年来,人们利用含氧多羧酸配体构筑出大量具有新颖拓扑结构的金属-有机配位聚合物。
At the same time, metal coordination polymers can be endowed with optics, electric and magnetism by selecting functional metal ions and organic ligands with functional groups.
同时,还可以通过选择功能性的中心金属离子和具有功能官能团的有机配体赋予目标金属配位聚合物以光、电、磁等功能。
In this paper, we review the third order NLO properties of coordination polymers, and summarize the relationship between the crystal structures and the third order NLO properties.
本文概括了配位聚合物的三阶非线性光学性质,并总结了其结构与三阶非线性光学性质之间的关系。
The use of metal atoms in coordination polymers offers several possible advantages over purely organic chains, grids or frameworks which are organized by non-covalent interactions .
将金属原子运用于配位聚合物里可能会有几个优点,即由非共价作用组装在一起的单一的有机链,网格或骨架。
As new optical functional complexes, coordination polymers have been synthesized via molecular design and spontaneous assembly, and their composition-structure-property relationships are cons...
根据配位聚合物的研究状况并结合本研究组的近期工作,分析讨论了配位聚合物的分子设计和组装,及其组成-结构-性能关系。
The tacticity of polymers is mainly influenced by the coordination ability of organotin monomers and polymers.
通过计算控制等规度的活化能参数,认为单体的锡氧配位是影响聚合物等规度的主要因素。
The tacticity of polymers is mainly influenced by the coordination ability of organotin monomers and polymers.
通过计算控制等规度的活化能参数,认为单体的锡氧配位是影响聚合物等规度的主要因素。
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