固化(化学)
辐照
流变学
自愈水凝胶
离子键合
离子强度
紫外线固化
化学工程
紫外线
化学
微观结构
钙
紫外线
碳酸钙
聚合物
高分子化学
材料科学
离子
光化学
复合材料
有机化学
水溶液
核物理学
工程类
物理
光电子学
作者
Alina K. Higham,Christopher A. Bonino,Srinivasa R. Raghavan,Saad A. Khan
出处
期刊:Soft Matter
[The Royal Society of Chemistry]
日期:2014-01-01
卷期号:10 (27): 4990-5002
被引量:50
摘要
We examine the gelation of alginate undergoing ionic crosslinking upon ultraviolet (UV) irradiation using in situ dynamic rheology. Hydrogels are formed by combining alginate with calcium carbonate (CaCO3) particles and a photoacid generator (PAG). The PAG is photolyzed upon UV irradiation, resulting in the release of free calcium ions for ionic crosslinking. The viscous and elastic moduli during gelation are monitored as a function of the UV irradiation intensity, exposure time, alginate concentration, and the ratio between alginate and calcium carbonate. Gel time decreases as irradiation intensity increases because a larger concentration of PAG is photolyzed. Interestingly, dark curing, the continuing growth of microstructure in the absence of UV light, is observed. In some instances, the sample transitions from a solution to a gel during the dark curing phase. Additionally, when exposed to constant UV irradiation after the dark curing phase, samples reach the same plateau modulus as samples exposed to constant UV without dark curing, implying that dark curing does not affect the gelation mechanism. We believe the presence of dark curing is the result of the acidic environment persisting within the sample, allowing CaCO3 to dissociate, thereby releasing free Ca(2+) ions capable of binding with the available appropriate ionic blocks of the polymer chains. The growth of microstructure is then detected if the activation barrier has been crossed to release sufficient calcium ions. In this regard, we calculate a value of 30 J that represents the activation energy required to initiate gelation.
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