A preparing method of a forward osmosis membrane doped with an inorganic/organic nanometer particles
A technology of inorganic nanoparticles and forward osmosis membrane, applied in the field of osmosis membrane, can solve the problems of low retention rate, poor antibacterial property, weak interaction and so on
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[0124] The present invention provides a kind of preparation method of described forward osmosis membrane, described method comprises the steps:
[0125] 1) providing a casting solution, which comprises a film-forming agent, inorganic / organic hybrid nanoparticles A-g-B and an organic solvent;
[0126] 2) Coating the casting solution on the substrate and curing it to obtain the forward osmosis membrane.
[0127] In the present invention, the organic solvent is not particularly limited.
[0128] Representatively, the organic solvents include (but are not limited to): 1,4-dioxane, acetone, methanol, lactic acid, N-methylpyrrolidone, N,N-dimethylacetamide, polyethylene glycol Alcohol 400, triethyl phosphate, or combinations thereof.
[0129] In another preferred example, in step 1), the film-forming agent is first dissolved in the organic solvent, and then the inorganic / organic hybrid nanoparticles A-g-B are added to the film-forming agent-dissolved The casting solution is formu...
Embodiment 1
[0164] Embodiment 1 prepares forward osmosis membrane 1
[0165] Using triacetate cellulose as a polymer, 13.1% (V%) triacetate cellulose and 0.9% (V%) SiO 2 - g-PHEMA inorganic / organic hybrid nanoparticles added to a mixture consisting of 57.8% (V%) 1,4-dioxane, 19.6% (V%) acetone and 8.6% (V%) methanol In the solvent, stir at a temperature of 60°C for 9 hours to dissolve and form SiO with a content of 0.9% (V%) 2 - Casting solution of g-PHEMA. Let it stand for more than 24 hours to completely defoam, stir the casting solution evenly and apply it on the substrate after standing for defoaming, and use a scraper to scrape evenly on the substrate to form a bottom film layer. The bottom film layer on the substrate is left to stand in the air for 30 seconds, and then the bottom film layer is put into a gel bath (the composition of the gel bath is deionized water) to form a film with a dense skin layer through phase inversion gel, The membrane was heat-treated in a water bath at...
Embodiment 2
[0179] Embodiment 2 prepares forward osmosis membrane 2
[0180] Using cellulose diacetate as polymer, 12.2% (V%) cellulose diacetate and 0.8% (V%) poly(acrylamine hydrochloride)-graphene nanosheets were added to the 55.1% (V%) 1,4-dioxane, 20.6% (V%) of acetone, 7.2% (V%) of methanol and 4.2% (V%) of lactic acid mixed into a mixed solvent, stirred at a temperature of 70 ° C Dissolving in 24 hours to form a casting solution of 0.9% (V%) poly(allylamine hydrochloride)-graphene nanosheets.
[0181] Let it stand for more than 24 hours to completely defoam, ultrasonically disperse for 30 minutes, stir the casting solution evenly, after standing for defoaming, apply it on the substrate, and use a scraper to scrape evenly on the substrate to form a bottom film layer. The bottom film layer on the substrate is left to stand in the air for 15 seconds, then the bottom film layer is put into a gel bath to form a film with a dense skin layer through phase inversion gel, and the prepared ...
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