本文综述了超分子化学的定义、范围及有关内容。
The definition, scope and related informations about supramolecular chemistry have been reviewed.
金属超分子化学在超分子化学中有着突出的地位。
Metallosupramolecular chemistry has a prominent position in supramolecular chemistry.
并展望了功能超分子导致分子器件产生的辉煌前景。
The author also prospects for the brilliant future of molecule machine, which is resulted from the functional supermolecule.
研究了含吡啶-3-磺酸配体的超分子体系的构筑。
The supramolecular compounds with ligand of pyridine-3- sulfonate were prepared .
通过在室温下冷却g2的水溶液,形成了超分子水凝胶。
Supramolecular hydrogels were formed via cooling the aqueous solutions of G2 under ambient condition.
基于新型联吡啶配体的超分子聚集体构筑(第6章)。
Construction of supramolecular aggregates based on novel dipyridyl building blocks (chapter 6).
煤分子间相互作用和分子识别是煤超分子化学的关键所在。
The intermolecular interactions a nd molecular recognition of coal are key components of coal supramolecular chemistry.
简要介绍了超分子化学的起源,杯芳烃的合成性质及应用。
Supermolecule chemistry and calixarene are introduced. The characteristic, synthesis method and application of calixarene are introduced in brief.
合成双分子膜是近年来出现的一类重要的超分子化学体系。
Synthetic bilayer membrane exploited in the recent years is one of important supramolecular systems.
研究发现它们能引起脂质膜超分子体系液晶态结构的变化。
It was found that they can make conformational change of super-molecular system in the liquid crystalline state.
基于超分子自组装的分子纳米技术是一种新兴的高新技术。
Molecular nanotechnology, based on supramolecular self assembly, is emerging high technology.
结果表明,大多数受体与所考察的客体形成1:1型超分子配合物。
The results show that 1 : 1 inclusion complexes are formed for the most of molecular tweezers with guests examined.
单体酶、寡聚酶、多酶体系和酶分子机器是理想的天然模型超分子。
Monomeric enzyme, oligomeric enzyme, multienzyme system and enzymatic molecular device are ideal model supramolecules.
其在分子识别、超分子催化以及分子组装等领域得到了广泛的研究。
Studies in the field of their molecular recognition, supramolecular catalysis and molecular assembly have been widely carried out.
超分子化学是小的分子单元通过非共价键自组装成大的超级分子的化学。
The super molecule chemistry is that small molecule units have assembled big molecule with non-covalent bond by themselves.
计算机模拟又是研究分子自组装特性、超分子聚集体结构和特性的有效方法。
Computer simulations are efficient and necessary on studying the self-assemblies characteristics of molecule, evolution mechanism and structures of the aggregates.
基于非共价相互作用的分子识别和自组装是超分子化学研究的两个重要的领域。
Molecular recognition and molecular self-assembly through the non-covalent bond is the two important parts of supramolecular chemistry.
计算机模拟是研究有机基质自组装特性、超分子聚集体结构和特性的有效方法。
Computer simulations are efficient and necessary on studying the self-assemblies characteristics of organic matrix, evolution mechanism and structures of the aggregates.
着重介绍了分子识别、分子自组装、超分子催化、超分子器件及超分子材料等概念。
Emphasis has been given to the concepts of molecular recognition, molecular self-assembly, molecular devices, supramolecular materials and supramolecular catalysis.
超分子凝胶通过外界刺激可以可逆变化的性质为利用刺激可控催化体系提供了基础。
The reversible nature of supramolecular gels seems ideal for the use of stimulus-controlled catalytic systems by environmental stimuli.
并以荧光光谱法测定了超分子体系的包结常数和包结比,对其包结机理进行了初步研究。
The formation ratio and binding constants of the supramolecular systems were determined by fluorescence spectrometry and an elementary research on its mechanism was performed.
酶催化反应和酶模拟的研究是“超分子化学”、“仿生化学”等热门课题的重要研究内容。
Enzymatic reaction and mimetic enzyme are the most important issues in the pop field such as supramolecular chemistry and biomimetic chemistry.
在新世纪的开始,将各种功能引入这些多金属体系已经成为金属超分子化学届的一大目标。
In the new century, the introduction of the various features into these multi-metal systems has become a major goal of the Supramolecular Chemistry.
利用氢键将有机小分子建筑块组装成具有特定结构的超分子成为近年来十分活跃的研究领域。
Recently years, the assembly of supramolecular compounds having special structure and function from simple building blocks directed by hydrogen bond formation has attracted widespread attentions.
我们希望构建一种新型的涡轮型组装体,进而研究组装体的超分子的手性识别、传递与放大。
We hope to develop a method to assemble a new class of turbine-like aggregates, and then investigate their applications in molecular recognition, supramolecular chirality transfer and amplification.
本文着力使用不同的配体和金属离子构建金属超分子化合物,并主要研究其磁性方面的性质。
This article focus on using different ligands and metal ions to construct Metallosupramolecular compound, of which we main research area of magnetic properties.
综述了超分子卟啉化合物对离子、大分子、手性分子的识别的研究进展及其在一些领域的应用。
This paper is to study progress on molecule recognition of ion, macromolecule, chiral molecule and applications in some field by the use of supramolecular porphyrins.
新材料是超分子聚合物,由金属间弱相互作用力将小分子聚合而成,就如同一种分子尼龙扣的结合。
It's a supramolecular polymer, made of smaller molecules held together by weak interactions with metals, which act like a kind of molecular Velcro.
在人工双层膜囊泡表面,构建了一个通过人工受体的分子识别行为控制酶反应活性的超分子体系。
Functionalized lipid bilayer vesicles on which molecular recognition by an artificial receptor synchronized with catalytic reaction by an enzyme were prepared in aqueous media.
超分子化学是当今化学界的前沿学科之一,超分子主体化合物的选择性合成是其一个重要的方面。
Supramolecule chemistry is an advanced research topic in current chemistry, and the selective synthesis of the host compound is an important aspect.
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