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Abstract:
Nanoscale science is becoming increasingly important and prominent, and further development will necessitate integration with other material chemistries. In other words, it involves the construction of a methodology to build up materials based on nanoscale knowledge. This is also the beginning of the concept of post-nanotechnology. This role belongs to nanoarchitectonics, which has been rapidly developing in recent years. However, the scope of application of nanoarchitectonics is wide, and it is somewhat difficult to compile everything. Therefore, this review article will introduce the concepts of liquid and interface, which are the keywords for the organization of functional material systems in biological systems. The target interfaces are liquid-liquid interface, liquid-solid interface, and so on. Recent examples are summarized under the categories of molecular assembly, metal-organic framework and covalent organic framework, and living cell. In addition, the latest research on the liquid interfacial nanoarchitectonics of organic semiconductor film is also discussed. The final conclusive section summarizes these features and discusses the necessary components for the development of liquid interfacial nanoarchitectonics.
摘要:
纳米科学变得越来越重要和突出,进一步的发展将需要与其他材料化学的整合。换句话说,它涉及建立基于纳米级知识的材料的方法。这也是后纳米技术概念的开始。这个角色属于纳米建筑学,近年来发展迅速。然而,纳米建筑学的应用范围很广,这是很难编译一切。因此,这篇综述文章将介绍液体和界面的概念,它们是生物系统中功能材料系统组织的关键词。目标界面是液-液界面,液-固界面,等等。最近的例子总结在分子组装的类别下,金属-有机骨架和共价有机骨架,和活细胞。此外,还讨论了有机半导体薄膜的液体界面纳米结构的最新研究。最后的结论部分总结了这些特征,并讨论了开发液体界面纳米结构的必要组件。
