• 综述 •
金诗萍, 孙莹, 张雪勤. 聚合物水凝胶材料的透氧性能[J]. 化学进展, 2023, 35(9): 1304-1312.
Shiping Jin, Ying Sun, Xueqin Zhang. Oxygen Permeability of Polymer Hydrogel Materials[J]. Progress in Chemistry, 2023, 35(9): 1304-1312.
近年来,水凝胶在角膜接触镜和医用敷料等生物医学领域得到广泛应用。在这些领域中,透氧性能是衡量水凝胶材料应用性能的关键性指标。本文概述了传统聚合物水凝胶和硅水凝胶在角膜接触镜和医用敷料领域的应用,分别总结了传统水凝胶和硅水凝胶在结构设计及透氧机理方面的研究进展,重点分析了影响硅水凝胶透氧性能的各种因素。希望通过对近期相关研究工作的总结和梳理,能更加深入地理解水凝胶微观结构与透氧性能之间的关系,为调控材料性能和设计出满足需求的材料提供帮助。
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Component | Preparation method | Oxygen permeability | Water content | ref | |
---|---|---|---|---|---|
Traditional hydrogels | HEMA、MPC | Copolymerization | 33 barrer | 58% | |
HEMA、MA、MMA | Ontology aggregation | 35 barrer | 45% | ||
NVP、HEMA | Copolymerization | 35 barrer | 84.5% | ||
Silicone hydrogels | KH570、HEMA、NVP | Ontology aggregation | 35 barrer | / | |
SIGMA、HEMA、NVP | Hydrate after copolymerization | 34.5 barrer | / | ||
PDMS、PEGMA、HEMA | Copolymerization | 92 barrer | / | ||
PDMS、PTMO、HMDI | Copolymerization | 100 barrer | / | ||
PEG、PDMS | Copolymerization | 110 barrer | / | ||
PDMS、PEG、 Fluorohydrocarbon groups | Copolymerization | 196 barrer | / | ||
TEOS、PDMS、HEMA、NVP | Photopolymerization | 71 barrer | 73% |
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