Conductive cotton fiber, method for pretreating same and method for preparing conductive cotton fiber

A pretreatment, cotton fiber technology, applied in fiber treatment, plant fiber, abrasion-resistant fiber, etc., can solve the problems of fiber damage, fiber performance deterioration, environmental pollution, etc., to overcome fiber damage and improve the effect of bonding force

Active Publication Date: 2019-04-02
GUANGDONG UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The invention provides a pretreatment method of conductive cotton fibers, conductive cotton fibers and a preparation method thereof, which solves the prob...

Method used

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  • Conductive cotton fiber, method for pretreating same and method for preparing conductive cotton fiber
  • Conductive cotton fiber, method for pretreating same and method for preparing conductive cotton fiber
  • Conductive cotton fiber, method for pretreating same and method for preparing conductive cotton fiber

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] (1) Microwave-assisted treatment of cotton gauze with 2 g / L tannic acid solution for 3 minutes, taking it out, washing with deionized water three times, and drying to obtain tannic acid-modified cotton gauze.

[0052] (2) Soak the tannic acid-modified cotton gauze in 20 g / L nickel sulfate hexahydrate solution for 20 min, take it out, and obtain the modified cotton gauze with metal nickel ions adsorbed on the surface.

[0053] (4) The modified cotton gauze adsorbed with metallic nickel ions was treated with 0.02 mol / L potassium borohydride solution for 240 s, and the activated layer of metallic nickel nanoparticles was obtained by in-situ reduction.

[0054] (4) Dissolve 20g of nickel sulfate hexahydrate, 20g of sodium dihydrogen phosphate, 20g of sodium citrate, and 60g of boric acid in deionized water, stir evenly, and prepare 1L of an electroless plating solution with a pH value of 8.

[0055] (5) Soak the cotton gauze sample strip with a metallic nickel activation la...

Embodiment 2

[0058] (1) Use 4 g / L tannic acid solution to assist in the microwave treatment of cotton gauze at medium heat for 2 minutes, take it out, wash with deionized water three times, and dry to obtain tannic acid modified cotton gauze.

[0059] (2) Soak the tannic acid modified cotton gauze in 30 g / L nickel sulfate hexahydrate solution for 10 min, take it out, and obtain the modified cotton gauze with metal nickel ions adsorbed on the surface.

[0060] (3) The modified cotton gauze adsorbed with metal nickel ions was treated with 0.05 mol / L sodium borohydride solution for 120 s, and the metal nickel nanoparticle activation layer was obtained by in-situ reduction.

[0061] (4) Dissolve 25g of nickel sulfate hexahydrate, 25g of sodium dihydrogen phosphate, 30g of sodium citrate, and 60g of boric acid in deionized water, stir evenly, and prepare 1L of an electroless plating solution with a pH value of 9.

[0062] (5) Soak the cotton gauze sample strip with the metallic nickel activatio...

Embodiment 3

[0065] (1) Use a tannic acid solution with a concentration of 6 g / L to treat the cotton gauze in microwave for 3 minutes, take it out, wash it with deionized water three times, and dry it to obtain a tannic acid-modified cotton gauze.

[0066] (2) Soak the tannic acid-modified cotton gauze in 5 g / L nickel sulfate hexahydrate solution for 40 min to obtain the modified cotton gauze with metal nickel ions adsorbed on the surface.

[0067] (3) The modified cotton gauze adsorbed with metallic nickel ions was treated with 0.01 mol / L potassium borohydride solution for 300 s, and the activated layer of metallic nickel nanoparticles was obtained by in-situ reduction.

[0068] (4) Dissolve 30g of nickel sulfate hexahydrate, 30g of sodium dihydrogen phosphate, 15g of sodium citrate, and 70g of boric acid in deionized water, stir evenly, and prepare 1L of an electroless plating solution with a pH value of 8.

[0069] (5) Soak the cotton gauze sample strip with the metallic nickel activati...

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Abstract

The invention relates to the technical field of metallization functional textile products, in particular to a conductive cotton fiber, a method for pretreating the same and a method for preparing theconductive cotton fiber. The method for pretreating the conductive cotton fiber includes a step of adsorbing modifiers onto cotton fibers to obtain modified cotton fibers. The modifiers are selected from plant polyphenol. The conductive cotton fiber and the methods have the advantages that the green and environment-friendly modifiers are used by the method for pretreating the conductive cotton fiber and can be adsorbed to the surfaces of the cotton fibers under the effects of hydrogen bonds, a supermolecular structure membrane layer can be formed and can be used as an interface layer between metal plating and the cotton fibers, accordingly, binding force of the metal plating and the cotton fibers can be increased, the performance of the cotton fibers can be prevented from being optionallydestructed, and the shortcomings of fiber damage on existing cotton fibers, fiber performance deterioration and environmental pollution due to the traditional methods for pretreating existing conductive cotton fibers can be overcome; the method for pretreating the conductive cotton fiber is simple, green and environmentally friendly and is easy to control.

Description

technical field [0001] The invention relates to the technical field of metallized functional textiles, in particular to a pretreatment method for conductive cotton fibers, conductive cotton fibers and a preparation method thereof. Background technique [0002] With the rapid development of modern textile science and technology, people's demand for functional textiles is increasing. People are no longer satisfied with the simple wearing requirements of textile fabrics. In addition to the physical and mechanical properties that general textiles should have, they should also have some special Functional requirements. Metallized functional textiles not only have the functions of conductivity and electromagnetic shielding, but also have the characteristics of fabrics such as softness, breathability, folding resistance, sewing and cutting, etc., and have been extensively studied by scholars at home and abroad. With the continuous advancement of science and technology, conductive ...

Claims

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Application Information

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IPC IPC(8): D06M11/83D06M13/152D06M13/238D06M101/06
CPCD06M11/83D06M13/152D06M13/238D06M2101/06D06M2200/35D06M2200/50
Inventor 董智贤
Owner GUANGDONG UNIV OF TECH
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