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.
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.
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.
模块可以组装成任意结构,从有单一的警报主频到最多的128警报主频,并且有超亮的LED灯彩标准以及两种窗口型号和六种颜色的选择。
Units can be constructed from a single alarm channel to a maximum of 128 channels, in any format, with ultra-bright LED illumination as standard and with a choice of two window sizes and six colours.
超分子结构功能的研究将指导如何合理的设计合成具有物理、化学性质的自组装功能性金属超分子配合物。
The research of the supramolecular Structure and function will guide rational design and synthesis self-assembly functional Metallosupramolecular complexes with the physical and chemical properties.
超分子结构功能的研究将指导如何合理的设计合成具有物理、化学性质的自组装功能性金属超分子配合物。
The research of the supramolecular Structure and function will guide rational design and synthesis self-assembly functional Metallosupramolecular complexes with the physical and chemical properties.
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