The turbidities of APVA-co-AANa aqueous solutions at different temperatures reveal that their lower critical solution temperatures(LCST) can be affected by the mole.
通过APVA-co-AANa水溶液在不同温度的浊度测定,考察了母体PVA-co-AANa相对分子质量、DA和单体组成对APVA-co-AANa的低临界溶解温度(LCST)的影响,发现APVA-co-AANa的DA越高、分子链越长、AA组分用量越小,相对LCST越低。
The composition of PNB was characterized by 1H-NMR,and both the lower critical solution temperature(LCST) and the molecular-recognition ability toward L-tryptophan(L-Trp) of PNB copolymers were investigated by turbidimetric method.
对PNB进行了成分分析,通过浊度法测定PNB的低临界溶解温度(LC-ST),并研究了PNB对L-色氨酸(L-Trp)的识别特性。
Study of LCST of thermo-sensitive polymers in mixed system;
温敏性聚合物复合体系低临界溶解温度的研究
It is found that the structure and content of acrylic comonomer strongly affect the LCST of the copolymers,i.
结果表明:所得共聚物的低临界溶解温度(LCST)均低于均聚物PNI-PAM的,酯类单体的结构和含量对共聚物的LCST有显著影响,其中酯基上的烷基对共聚物LCST的影响能力大于丙烯酸酯α位上的烷基,前者对增大共聚物的疏水性有更大贡献。
The result of the thermo behavior of these polymer catalysts show that the low critical solution temperature(LCST) in aqueous solution can be adjusted by changing the proportion of AA fraction in the Zn-TDTAPc-p(NIPAAm-co-AA).
这类聚合物的低临界溶解温度(LCST)可以通过改变共聚物中丙烯酸的含量来调节,随着丙烯酸含量的增加,该锌酞菁聚合物的LCST随pH值的增加而升高越明显。