Biomimetic mineralization preparation method of polyelectrolyte/calcium carbonate composite nanofiltration membrane

Abstract

The invention relates to a preparation method of a composite nanofiltration membrane and especially relates to a biomimetic mineralization preparation method of a polyelectrolyte / calcium carbonate composite nanofiltration membrane. The biomimetic mineralization preparation method comprises polyelectrolyte composite membrane Ca<2+> pre-organization layer formation and polyelectrolyte composite membrane biomimetic mineralization. An inorganic precursor is subjected to interface molecule identification by the polyelectrolyte so that a pre-organization structure is formed; and a biomimetic mineralization reaction is carried out in a way of simulation of CO2 biological uptake and transformation into calcium carbonate minerals in nature. The biomimetic mineralization preparation method is a green preparation method. The polyelectrolyte / calcium carbonate composite nanofiltration membrane obtained by the biomimetic mineralization preparation method has a uniform structure and can be used for removing divalent metal ions such as Ni<2+>, Cd<2+>, Cu<2+>, Zn<2+>, Mg<2+> and Ca<2+> in waste water and has good use effects.

Description

technical field [0001] The invention relates to a preparation method of a composite nanofiltration membrane, in particular to a bionic mineralization preparation method of a polyelectrolyte / calcium carbonate composite nanofiltration membrane with a shell-like structure. Background technique [0002] As a newly developed pressure-driven membrane separation process, nanofiltration membrane has been widely used in the purification and concentration of biochemical reagents, Desalination of salt water, industrial wastewater treatment, advanced treatment of drinking water and material recovery and other fields. At present, commercial nanofiltration membranes are mostly prepared by interfacial polymerization (such as patents with publication numbers CN102641667A, CN102151499A, and CN1806901A), but this method has high requirements on the base membrane and many side reactions, making it difficult to obtain ultra-thin nanofiltration membranes The layer-by-layer self-assembly method ...

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Problems solved by technology

[0004] The patent with the publication number CN102553461A discloses an inorganic / organic composite nanofiltration membrane, in which the inorganic calcium carbonate is formed by in-situ precipitation reaction of soluble calcium salt and soluble carbonate, and the obtained composite membrane is uniform and controllable, with stable performance. However, this method can only control the dispersion uniformity of calcium carbonate, but cannot regulate its particle size, and the particle size of calcium carbonate inorganic particles obtained is relatively large; Hao Wei (Chem.Mater.2007,19,1974-1978) A carbon dioxide (CO 2 ) gas phase diffusion method to prepare artificial calcium carbonate imitation shell composite film, this film is first self-assembled layer by layer diazo resin cross-linked polyacrylic acid film (DAR / PAA) on the quartz substrate, and then, will be covered with DAR / PAA The quartz substrate is immersed in a certain concentration of CaCl 2 In solution, the adsorption of Ca 2+ After that, it is placed in a closed container containing ammonium carbonate, and the ammonium carbonate decomposes at a certain temperature, and the produced CO 2 Diffused on the surface of the quartz substrate, and the Ca on the surface of the film 2+ Mineralization reaction to obtain an artificial imitation shell composite film

The polymer layer used in this method is polyacrylic acid cross-linked by diazo resin, and the obtained calcium carbonate has a uniform particle size. its specific application in real life

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