CN105780446A

CN105780446A - Method for preparing functional cotton fabric by trivalent aluminum ion complexing phytic acid

Info

Publication number: CN105780446A
Application number: CN201610180659.9A
Authority: CN
Inventors: 卢明; 赵振云; 刘萍; 刘一萍; 刘想; 高兵; 邹游
Original assignee: Southwest University
Current assignee: Southwest University
Priority date: 2016-03-28
Filing date: 2016-03-28
Publication date: 2016-07-20

Abstract

The invention provides a method for preparing a functional cotton fabric by trivalent aluminum ion complexing phytic acid. The method comprises the following steps of (1) dissolving a trivalent aluminum ion salt into 50mL of water, adding a cotton fabric, stirring for 30min at the temperature of 60 DEG C, fetching out, and drying; (2) adding the treated cotton fabric in a phytic acid water solution, and stirring for 45min at the temperature of 80 DEG C; (3) cooling to 0-5 DEG C, and adding aniline; (4) slowly dripping an ammonium persulfate water solution, and standing for 30min; (5) fetching out the treated cotton fabric, washing by water, and drying. The method has the advantages that the trivalent aluminum ion is used as a phytic acid adsorbent by the preparation technique, the phytic acid is enriched at the surface of cotton fiber, then the aniline is polymerized at the surface of cotton fiber in situ, and the conductivity and flame-retardant property of the cotton fabric are realized; the flocculation technique of trivalent aluminum ion on phytic acid is combined with the polyaniline in-situ chemical synthesizing technique, the washing-resistant property of the phytic acid is improved, and the stability and durability of conductivity and flame-retardant property of the cotton fabric are improved.

Description

A kind of method utilizing trivalent aluminium ion complexation phytic acid to prepare function bafta

Technical field

The present invention relates to a kind of function bafta preparation method, a kind of method utilizing trivalent aluminium ion complexation phytic acid to prepare function bafta.

Background technology

Along with the progress of science and technology, more electric equipment products get their way into people's lives, and have brought electromagnetic pollution, are referred to as the fourth-largest pollution after air pollution, water pollution and sound pollution.After the human body electromagnetic wave radiation by excess, blood, lymph fluid and cellular plasm can change, cause intracellular DNA (deoxyribonucleic acid) impaired and genetic undergoing mutation and lopsided, and then induce leukemia and tumor, also can cause Placenta Hominis chromosomal change, cause the deformity of baby or the spontaneous abortion of anemia of pregnant woman.

Conducting polymer is that the organic polymer with controllable electric conductivity, especially polyaniline have been widely used for the fields such as conduction, electromagnetic shielding, antistatic, anti-corrosion of metal, opto-electronic device, gas-sensing probe, super capacitor.Utilizing the in situ chemical oxidation technology can be by polyaniline-coated at textile surface, especially cotton fiber surface, so that nonconducting bafta has electric conductivity.Polyaniline generally regulates and controls electric conductivity by doping, and conventional adulterant is proton acid.Current published polyaniline-coated bafta mainly uses some small molecular organic acids to be doped, the easy dedoping of dopant acid in washing process and lose electric conductivity.

Phytic acid is a kind of polyphosphoric acids, as chelating agen, antioxidant, antistaling agent, water softener, fermentation accelerant, anticorrosive metal agent etc., it is widely used in the industry fields such as food, medicine, paint, coating, daily-use chemical industry, anti-corrosion of metal, textile industry, plastics industry and Polymeric Industry.Phytate molecule, with 6 electronegative phosphate groups, may be used for the doping of polyaniline, and has preferable flame retardant effect to cotton fiber；Phytate molecule has coplanarity, and affinity is relatively big, can be formed the complex of more macromolecule by trivalent aluminium ion so that it is have preferable washability.

Summary of the invention

The technical problem to be solved is, the shortcoming existed for above prior art, a kind of method utilizing trivalent aluminium ion complexation phytic acid to prepare function bafta is proposed, this preparation method is simple, preparation cost is cheap, the bafta prepared has good electric conductivity and fire resistance, has the advantages such as washability simultaneously.

The present invention adopts the following technical scheme that to achieve these goals.

A kind of method utilizing trivalent aluminium ion complexation phytic acid to prepare function bafta that the present invention provides, this preparation method comprises the steps: that 0.5-2g trivalent aluminium ion salt is dissolved in 50mL water by (1), adds cotton, stirs 30min, take out and dry under 60 C；(2) cotton of above-mentioned process is placed in 100mL and contains in 5-10g phytic acid aqueous solution, under 80 C, stir 45min；(3) it is cooled to 0-5 C, adds 0.5-5mL aniline；(4) it is slowly added dropwise the 20mL aqueous solution containing 2-7g Ammonium persulfate., after dripping off, stands 30min；(5) bafta after above-mentioned process is taken out, wash, dry.

The beneficial effects of the present invention is, this technology of preparing (1) is coated with polyaniline at surface of cotton fabric, using phytic acid as dopant acid, makes bafta have electric conductivity；(2) owing to being coated with doped polyaniline at surface of cotton fabric, introducing more nitrogen element and P elements at surface of cotton fabric, synergism therebetween can improve the fire resistance of bafta；(3) phytic acid is a kind of ring-type polyphosphoric acids, has coplanarity, and affinity is big, is difficult to dedoping；(4) using trivalent aluminium ion as phytic acid adsorbent, phytic acid is enriched in cotton fiber surface, and forms water-fast complex, improve the washability of phytic acid, reduce further the dedoping probability of phytic acid, improve conduction and fire-retardant stability.

Detailed description of the invention

The present invention is described in detail below in conjunction with specific embodiment.It should be noted that, what the combination of technical characteristic described in following embodiment or technical characteristic was not construed as isolating, they can be mutually combined thus be reached superior technique effect.

Embodiment 1

(1) 0.5g aluminum chloride is dissolved in 50mL water, adds cotton, stir 30min under 60 C, take out and dry；

(2) cotton of above-mentioned process is placed in 100mL and contains in 5g phytic acid aqueous solution, under 80 C, stir 45min；

(3) it is cooled to 0 C, adds 0.5mL aniline；

(4) it is slowly added dropwise the 20mL aqueous solution containing 2g Ammonium persulfate., after dripping off, stands 30min；

(5) bafta after above-mentioned process is taken out, wash, dry.

Embodiment 2

(1) 2g aluminium potassium sulfate is dissolved in 50mL water, adds cotton, stir 30min under 60 C, take out and dry；

(2) cotton of above-mentioned process is placed in 100mL and contains in 10g phytic acid aqueous solution, under 80 C, stir 45min；

(3) it is cooled to 5 C, adds 5mL aniline；

(4) it is slowly added dropwise the 20mL aqueous solution containing 7g Ammonium persulfate., after dripping off, stands 30min；

(5) bafta after above-mentioned process is taken out, wash, dry.

Embodiment 3

(1) 1g aluminum nitrate is dissolved in 50mL water, adds cotton, stir 30min under 60 C, take out and dry；

(2) cotton of above-mentioned process is placed in 100mL and contains in 8g phytic acid aqueous solution, under 80 C, stir 45min；

(3) it is cooled to 0 C, adds 3mL aniline；

(4) it is slowly added dropwise the 20mL aqueous solution containing 5g Ammonium persulfate., after dripping off, stands 30min；

(5) bafta after above-mentioned process is taken out, wash, dry.

Embodiment 4

(1) 1.5g aluminium potassium sulfate is dissolved in 50mL water, adds cotton, stir 30min under 60 C, take out and dry；

(3) it is cooled to 2 C, adds 4mL aniline；

(4) it is slowly added dropwise the 20mL aqueous solution containing 6g Ammonium persulfate., after dripping off, stands 30min；

(5) bafta after above-mentioned process is taken out, wash, dry.

Although having been presented for some embodiments of the present invention herein, it will be appreciated by those of skill in the art that without departing from the spirit of the invention, the embodiments herein can be changed.Above-described embodiment is exemplary, should be using the embodiments herein as the restriction of interest field of the present invention.

Claims

1. one kind utilizes the method that trivalent aluminium ion complexation phytic acid prepares function bafta, it is characterised in that comprise the steps:

(1) 0.5-2g trivalent aluminium ion salt is dissolved in 50mL water, adds cotton, stir 30min under 60 C, take out and dry；

(2) cotton of above-mentioned process is placed in 100mL and contains in 5-10g phytic acid aqueous solution, under 80 C, stir 45min；

(3) it is cooled to 0-5 C, adds 0.5-5mL aniline；

(4) it is slowly added dropwise the 20mL aqueous solution containing 2-7g Ammonium persulfate., after dripping off, stands 30min；

(5) bafta after above-mentioned process is taken out, wash, dry.

2. according to the trivalent aluminium ion salt described in claim 1, it is characterised in that trivalent aluminium ion salt is the aluminum soluble salts such as aluminum chloride, aluminum nitrate, aluminium potassium sulfate.