材料科学
表征(材料科学)
多孔性
多孔介质
纳米技术
实验数据
流体学
生物系统
正电子湮没
分子动力学
密度泛函理论
计算机科学
评价方法
大孔隙
工艺工程
纳米孔
生化工程
频道(广播)
作者
Dongyu Jin,Dagang Qi,Zhongqi Ren
摘要
ABSTRACT Porous liquids (PLs), as a novel functional material combining fluidic properties with permanent pore structures, exhibit unique advantages in fields such as separation and catalysis due to their uniquely tunable pore channel structures. The accurate characterization and quantitative analysis of pore structure and porosity are essential for optimizing the functional design and synthesis strategies of PLs. Various methods for characterizing and quantifying the pore characteristics of PLs have been reported, including positron annihilation lifetime spectroscopy, transmission electron microscopy, molecular dynamics simulation, gas absorption, density measurement, and so on. However, existing research sometimes fails to adequately account for pore characteristics, leading to methodological misuse and data bias. This study provides a systematic review of existing methods for studying the pore characteristics of PLs, categorizing them into three parts: analytical characterization, theoretical calculation, and experimental verification. Through a thorough analysis of the principles of various analytical techniques, this study clarifies the advantages and limitations of each method in analyzing pore characteristics, outlines the technical characteristics of different methods and establishes the applicability between different types of PLs to specific research methodologies. It is hoped that this study will provide more rigorous theoretical guidance for the study of the pore characteristics of PLs.
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