Molecular self-assembly systems will create a new class of materials at the molecular level.
分子自组装系统将在分子水平上创造一种新型材料。
The method is suitable for studying the local structure of the molecular self-assembly system.
这种方法非常适合于研究分子自组装系统的局域结构。
It is a significative problem for people to study on the molecular self-assembly and function devices.
分子纳米构筑与功能器件研制是极有意义的研究课题。
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。
Molecular self-assembly systems lie at the interface between molecular biology, chemistry, polymer science, materials science and engineering.
分子自我组装系统横跨分子生物、化学、聚合物科学、材料科学与工程之间的界面。
Emphasis has been given to the concepts of molecular recognition, molecular self-assembly, molecular devices, supramolecular materials and supramolecular catalysis.
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。
Molecular nanotechnology, based on supramolecular self assembly, is emerging high technology.
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。
Several types of helical complexes have been listed, the importance of weak molecular interaction to the helicate self-assembly is discussed, their special application and prospect are also explained.
本文介绍了螺旋配合物的种类以及配位键和分子间弱相互作用对螺旋结构自组装的重要影响,简述了螺旋配合物的特殊物化性质及应用前景。
We systemically classify the nanostructure assembly. The latest progress in the study of man-made assemblies, nanostructure self-assemblies and molecular self-assemblies is reviewed.
对功能纳米结构组装体系进行了系统的分类,详细总结和评述了人工纳米结构组装体系、纳米结构自组装体系和分子自组装体系的最新进展。
Networks 2: Molecular Computing, Self-assembly, Genetic Algorithms, Neural Networks.
网络2:分子计算、自行组装、遗传演算法、神经网路。
The synthesized symmetric tailed sulfhydryl porphyrin has a certain practical value for realizing multi-layered self assembly, two-dimensional molecular devices and photoelectric conversion.
本发明合成的对称尾式巯基卟啉对实现多层自组装,二维分子器件及光电转化有一定的实用价值。
The importance of self-assembly, molecular alignment, and cross-linking in the construction of macroscale biological material filaments from nano-scale building blocks.
用纳米构造模块自组装、分子对位与交联建构出大生物材料纤维的重要性。
The importance of self-assembly, molecular alignment, and cross-linking in the construction of macroscale biological material filaments from nano-scale building blocks.
用纳米构造模块自组装、分子对位与交联建构出大生物材料纤维的重要性。
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