Non-Solvent- and Temperature-Induced Phase Separations of Polylaurolactam Solutions in Benzyl Alcohol as Methods for Producing Microfiltration Membranes

IF 2.5 Q3 CHEMISTRY, PHYSICAL Colloids and Interfaces Pub Date : 2023-01-20 DOI:10.3390/colloids7010010
Svetlana O. Ilyina, T. Anokhina, S. Ilyin
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引用次数: 3

Abstract

The possibility of obtaining porous films through solutions of polylaurolactam (PA12) in benzyl alcohol (BA) was considered. The theoretical calculation of the phase diagram showed the presence of the upper critical solution temperature (UCST) for the PA12/BA system at 157 °C. The PA12 completely dissolved in BA at higher temperatures, but the resulting solutions underwent phase separation upon cooling down to 120–140 °C because of the PA12’s crystallization. The viscosity of the 10–40% PA12 solutions increased according to a power law but remained low and did not exceed 5 Pa·s at 160 °C. Regardless of the concentration, PA12 formed a dispersed phase when its solutions were cooled, which did not allow for the obtention of strong films. On the contrary, the phase separation of the 20–30% PA12 solutions under the action of a non-solvent (isopropanol) leads to the formation of flexible microporous films. The measurement of the porosity, wettability, strength, permeability, and rejection of submicron particles showed the best results for a porous film produced from a 30% solution by non-solvent-induced phase separation. This process makes it possible to obtain a membrane material with a 240 nm particle rejection of 99.6% and a permeate flow of 1.5 kg/m2hbar for contaminated water and 69.9 kg/m2hbar for pure water.
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聚月桂内酰胺在苯甲醇中的非溶剂和温度诱导相分离作为制备微滤膜的方法
考虑了通过聚月桂内酰胺(PA12)在苯甲醇(BA)中的溶液获得多孔膜的可能性。相图的理论计算表明,PA12/BA系统在157°C时存在上临界溶液温度(UCST)。PA12在更高的温度下完全溶解在BA中,但由于PA12的结晶,在冷却至120–140°C时,所得溶液发生相分离。10–40%PA12溶液的粘度根据幂律增加,但保持较低,在160°C时不超过5 Pa·s。无论浓度如何,PA12在其溶液冷却时形成分散相,这不允许获得强膜。相反,在非溶剂(异丙醇)的作用下,20–30%的PA12溶液的相分离导致柔性微孔膜的形成。亚微米颗粒的孔隙率、润湿性、强度、渗透性和截留率的测量显示了由30%溶液通过非溶剂诱导相分离制备的多孔膜的最佳结果。该方法使得可以获得具有99.6%的240nm颗粒截留率和对于污染水为1.5kg/m2hbar和对于纯水为69.9kg/m2hbar的渗透流量的膜材料。
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来源期刊
Colloids and Interfaces
Colloids and Interfaces CHEMISTRY, PHYSICAL-
CiteScore
3.90
自引率
4.20%
发文量
64
审稿时长
10 weeks
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