分子配合物 meaning in Chinese
molecular complex
Examples
- Considering the influence of dielectric constant , conductivity , and dielectric loss on electrorheological ( er ) effects , an effective approach to prepare supramolecular complex er materials was proposed by self - assembly
根据介电极化理论,从电流变液材料物理设计的介电常数、电导率和介电损耗等参数出发,采用分子自组装方法,制备出超分子配合物新型电流变液材料。 - This article gives a review on the progress of the recognition and complexation between cucurbiturils as a noval macrocyclic host compound and metal ion , including the synthesis methods of supermolecular adducts , crystal structures , thermodynamics of binding and potential applications
摘要概述了新一代大环主体化合物南瓜尼与金属离子的识别及配合作用的研究进展,包括其超分子配合物的合成方法,晶体结构,键合的热力学性质及其应用前景。 - 2 . in order to deeply probe into the influence of crosslinked degree on er properties and expediently characterize the structure of the supramolecular complex , six hydrosoluble - cyclodextrin polymer / 3 - hydroxy - 2 - naphthoic acid er particles were synthesized . fluorescence analysis conformed that all the polymers can form 1 : 1 type supramolecular complex with the guest
为了进一步考察交联度对电流变效应的影响,并便于超分子配合物颗粒的结构表征,制备了6种不同交联度的水溶性-环糊精聚合物,以3 -羟基- 2 -萘甲酸为荧光探针探讨了不同交联度超分子配合物的组成、稳定性及荧光性质。 - The supramolecular complexes of - cyclodextrin cross - linking polymer / l - ( 2 - pyridlazo ) - 2 - naphthol er particles were synthesized by self - assembly . the structure of the supramolecular complex was characterized by the fluorescence analysis , ir spectrometry and chem3d simulation , respectively . the results confirmed that the naphthalene ring of the guest is included in the cavity of - cyclodextrin cross - linking polymer
用荧光分析、 ir 、 xrd及计算机模拟手段对颗粒结构进行了表征,发现客体分子中极性较小的萘环进入环糊精的疏水内腔,形成了不溶性-环糊精聚合物超分子配合物。 - It was found that the electrorheological properties , the dielectric properties , the temperature dependence and the sedimentation stability of the typical supramolecular complex er fluids were much higher than that of pure - cyclodextrin polymer . furthermore , the er behaviors can be regularly affected by the cross - linked degree of the supramolecular complex . the results indicated that the suitable range of cross - linked degree was 4 - 8
对比测试超分子配合物及主体材料配制的电流变液,发现超分子配合物电流变液的介电性能、流变学性能、温度效应以及抗沉降性能等均有明显提高,并发现聚合物的交联度对电流变效应影响较大,可以作为调节主体材料结构与性能的特征量。