Metallosupramolecular chemistry has a prominent position in supramolecular chemistry.
金属超分子化学在超分子化学中有着突出的地位。
The definition, scope and related informations about supramolecular chemistry have been reviewed.
本文综述了超分子化学的定义、范围及有关内容。
As a new cutting-edge science, supramolecular chemistry is one hotspot of the current researches.
超分子化学是一门新兴前沿科学,是当前的研究热点之一。
The intermolecular interactions a nd molecular recognition of coal are key components of coal supramolecular chemistry.
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。
Molecular recognition and molecular self-assembly through the non-covalent bond is the two important parts of supramolecular chemistry.
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。
Enzymatic reaction and mimetic enzyme are the most important issues in the pop field such as supramolecular chemistry and biomimetic chemistry.
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。
In the new century, the introduction of the various features into these multi-metal systems has become a major goal of the Supramolecular 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。
This paper gives a review of the aspects of supramolecular chemistry based on the molecular recognition mechanisms in gas chromatography with 55 references.
本文从分子识别的角度,探讨了气相色谱学中超分子化学问题,并详细地评述了冠醚、液晶、环糊精固定液的分子识别机理的研究状况。
The study field of supramolecular chemistry is high-order and complicated system constituted from two or more moleculars through weak interaction between different molecules.
超分子化学的研究范围是由两个或更多的化学实体通过分子间弱相互作用而构建的高度有序及复杂性的体系。
Cucurbituril, as a novel synthetic receptor, has attracted considerable attentions of chemists. The supramolecular chemistry of cucurbituril gradually turns into a hot field.
葫环联脲这类新型主体分子正受到化学家们的广泛关注,并逐渐成为超分子化学研究领域中的一个热点。
Catenanes have special topologic features and have important potential application future in supramolecular chemistry, molecular electronic devices and photo-electronic materials etc.
索烃这类具有重要拓扑学特征的分子体系在超分子化学、分子生物学及分子电子器件材料等领域具有十分重要的作用。
Based on the primary principles of supramolecular chemistry, biomacromolecules such as polysaccharides or proteins are used as supramolecular template to found simulation systems in vitro.
根据超分子化学基本原理,利用谱学方法和显微技术,以胶原蛋白、多糖等生物大分子为超分子模板,建立体外模拟体系。
Based on the primary principles of supramolecular chemistry, biomacromolecules such as polysaccharides or proteins are used as supramolecular template to found simulation systems in vitro.
根据超分子化学基本原理,利用谱学方法和显微技术,以胶原蛋白、多糖等生物大分子为超分子模板,建立体外模拟体系。
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