CN106702722A - Preparation method of high-conductivity graphene-based conductive fiber - Google Patents

Abstract

The invention discloses a preparation method of high-conductivity graphene-based conductive fiber and relates to the technical field of nanometer materials. The preparation method comprises the steps: (1) performing fiber surface pretreatment; (2) preparing conductive dispersing liquid; (3) preparing graphene-based conductive fiber. The conductivity of the graphene-based conductive fiber prepared by the method is near that of graphene, the conductive fiber with the resistivity being 10<-2> to 10<7> ohm.cm can be obtained by controlling the graphene content and a coating process, the conductive component is insusceptible to fall off, and the requirement of fiber-like energy devices on the performance of fiber electrodes can be met.

Description

A kind of preparation method of the graphene-based conductive fiber of high conductivity

Technical field：

The present invention relates to technical field of nano material, and in particular to a kind of system of the graphene-based conductive fiber of high conductivity Preparation Method.

Background technology：

High connductivity fiber is one of critical material of structure high-performance fiber shape energy storage device.As the new of appearance in nearly 2 years The wearable energy device of type, fibrous energy device have received the highest attention of domestic and foreign scholars and enterprise.As fibrous energy The chief component of source device, high connductivity fiber electrode is the key factor for determining fibrous energy device.Except with height Outside electrical conductivity, fiber electrode should also have the properties such as flexibility, draftability.

The fiber electrode that threadiness energy device is used at present mainly has two classes, and a class is wire electrode, is by inciting somebody to action Conventional metals silk is modified and prepares fiber electrode, mainly including copper wire, platinum filament, titanium silk, stainless steel wire etc., this metalloid The advantage of silk electrode is electrical conductivity high, has the disadvantage that fibre cell flexibility is poor, and elongation at break is very low, has had a strong impact on threadiness The practicality of energy device；Equations of The Second Kind is carbon nanometer base fiber electrode, is the fiber built using non-metallic conducting material carbon, main To include carbon fiber, carbon nano-tube fibre and graphene fiber, the advantage of this kind of carbon nanometer base fiber electrode is fiber porosity Height, it is flexible, while fiber has porosity higher, be conducive to compound second component, the shortcoming of this kind of fiber electrode is fine Dimension yield is relatively low, high expensive.And traditional chemical fiber industry develops very ripe, the species and function of gained chemical fibre Variation is all realized, if the preparation of fiber electrode can be combined with traditional chemical fibre industry, it will greatly promote threadiness The development of energy device.

The content of the invention：

The technical problems to be solved by the invention be provide one kind have concurrently general fibre and carbon nanomaterial double dominant, The preparation method of the graphene-based conductive fiber of the high conductivity that electrical conductivity is high, flexible and endurance is strong.

The technical problems to be solved by the invention are realized using following technical scheme：

A kind of preparation method of the graphene-based conductive fiber of high conductivity, comprises the following steps：

(1) fiber surface pretreatment：At ambient temperature, successively using organic solvent, alkali lye and water to macromolecular fibre Carry out surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；

(2) conductive dispersions are prepared：The Graphene of certain mass or graphene/carbon nano-tube mixed-powder are placed in mixing In solvent, through mechanical agitation and ultrasonic disperse after, be obtained conductive dispersions；

(3) prepared by graphene-based conductive fiber：Using coating processes, above-mentioned made conductive dispersions are homogeneously applied to Through on above-mentioned pretreated macromolecular fibre, the graphene-based conductive fiber of high conductivity being obtained after online washing drying.

Macromolecular fibre is the one kind in polyester fiber, fine cotton, polyester-cotton blend fibre and Fypro in the step (1)；Have Machine solvent be acetone, ethanol in one or two；Alkali lye is sodium hydrate aqueous solution, and concentration is 0.1-4mol/L；Macromolecule Infiltrating time of the fiber in organic solvent and alkali lye is respectively 1-50s and 1-100s.

The average number of plies of Graphene is 1-1000 layers in the step (2), and lamella average-size is 0.01-500 μm；Carbon is received The caliber of mitron is 10-50nm, and length is 200-1000nm；Graphene or graphene/carbon nano-tube powder are in dispersion liquid Content is 0.1-50%；Mixed solvent is two in hydroxy benzenes, organic acid, dimethylformamide, sulfuric acid, acetylenetetrachloride and water Plant or three kinds.

To adding appropriate dispersing aid in step (2) made conductive dispersions, and it is aided with strong stirring or ultrasound, makes graphite Alkene or graphene/carbon nano-tube are dispersed.

Coating speed is 1-500m/min in the step (3), and conductive dispersions temperature is between 10-800 DEG C during coating.

The specific insulation of made graphene-based conductive fiber is 10^-2-10⁷Ω·cm。

The beneficial effects of the invention are as follows：

(1) the inventive method electroplates the method for metal similar to fiber surface, but overcomes electroplated metal layer and easily come off Shortcoming, as a result of Graphene or graphene/carbon nano-tube mixture as conductive material, the corrosion resistant of gained conductive fiber Corrosion has also obtained very big lifting；

(2) because electrically-conducting paint forms continuous conductive network in fiber surface, prepared is graphene-based conductive fine Electrical conductivity of the electrical conductivity of dimension close to Graphene in itself, by controlling Graphene content and coating processes, can obtain resistivity It is 10^-2The conductive fiber of -107 Ω cm scopes；

(3) the inventive method process is simple, electrical conductivity of fibres is high, and conductive compositions are difficult for drop-off, meets fibrous energy device Requirement of the part to fiber electrode performance.

Specific embodiment：

In order that technological means, creation characteristic, reached purpose and effect that the present invention is realized are easy to understand, tie below Specific embodiment is closed, the present invention is expanded on further.

Embodiment 1

(1) fiber surface pretreatment：At ambient temperature, acetone, 0.1mol/L caustic lye of sodas and water pair are used successively Polyster fibre matrix carries out surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；Wherein polyster fibre exists Process time in acetone, sodium hydrate aqueous solution and water is 10s.

(2) conductive dispersions are prepared：5g graphene powders are placed in 100mL phenol/tetrachloroethanes (1:1) mixed solvent In, through mechanical agitation and ultrasonic disperse after, be obtained conductive dispersions；The average number of plies of the Graphene is 10 layers, and lamella is average Size is 500nm.

(3) prepared by graphene-based conductive fiber：Using surface coating technology, with the speed of 20m/min on continuous coating machine Graphene conductive slurry is coated uniformly on PET fiber surface by degree, then obtains Graphene/terylene after 60 DEG C of heated-air dryings Conductive fiber.

Embodiment 2

(1) fiber surface pretreatment：At ambient temperature, acetone, 0.1mol/L caustic lye of sodas and water pair are used successively Nylon fiber matrix carries out surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；Wherein nylon fiber exists Process time in acetone, sodium hydrate aqueous solution and water is 10s.

(2) conductive dispersions are prepared, 2.5g graphene powders and 2.5g carbon nanotube powders is placed in 100mL formic acid (80%) in solvent, through mechanical agitation and ultrasonic disperse after, be obtained conductive dispersions；The average number of plies of the Graphene is 50 Layer, lamella average-size is 200nm.

(3) prepared by graphene-based conductive fiber：Using surface coating technology, with the speed of 100m/min on continuous coating machine Graphene conductive slurry is coated uniformly on nylon fiber surface by degree, and then obtaining graphene/carbon after 80 DEG C of heated-air dryings receives Mitron/nylon conductive fiber.

Embodiment 3

(1) fiber surface pretreatment：At ambient temperature, acetone, 0.1mol/L caustic lye of sodas and water pair are used successively Polyester-cotton blend (60/40) fibrous matrix carries out surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；Wherein polyester-cotton blend (60/40) process time of the fiber in acetone, sodium hydrate aqueous solution and water is 10s.

(2) conductive dispersions are prepared：5g graphene powders are placed in 100mL phenol/tetrachloroethanes (1:1) mixed solvent In, through mechanical agitation and ultrasonic disperse after, be obtained conductive dispersions；The average number of plies of the Graphene is 100 layers, and lamella is average Size is 800nm.

(3) prepared by graphene-based conductive fiber：Using surface coating technology, with the speed of 50m/min on continuous coating machine Graphene conductive slurry is coated uniformly on polyester fiber surface by degree, then obtains Graphene/polyester-cotton blend after 50 DEG C of heated-air dryings Conductive fiber.

Embodiment 4

(1) fiber surface pretreatment：At ambient temperature, acetone, 0.1mol/L caustic lye of sodas and water pair are used successively Nylon fiber matrix carries out surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；Wherein nylon fiber exists Process time in acetone, sodium hydrate aqueous solution and water is 10s.

(2) conductive dispersions are prepared：5g graphene powders are placed in 100mL acetic acid (80%) solvent, through mechanical agitation After ultrasonic disperse, conductive dispersions are obtained；The average number of plies of the Graphene is 10 layers, and lamella average-size is 500nm.

(3) prepared by graphene-based conductive fiber：Using surface coating technology, with the speed of 200m/min on continuous coating machine Graphene conductive slurry is coated uniformly on nylon fiber surface by degree, then obtains Graphene/nylon after 90 DEG C of heated-air dryings Conductive fiber.

General principle of the invention and principal character and advantages of the present invention has been shown and described above.The technology of the industry Personnel it should be appreciated that the present invention is not limited to the above embodiments, simply explanation described in above-described embodiment and specification this The principle of invention, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appending claims and its Equivalent thereof.

Claims (6)

1. the preparation method of the graphene-based conductive fiber of a kind of high conductivity, it is characterised in that comprise the following steps：

(1) fiber surface pretreatment：At ambient temperature, macromolecular fibre is carried out using organic solvent, alkali lye and water successively Surface washing process, dry for standby after removal chemical fibre surface oil stain and impurity；

(2) conductive dispersions are prepared：The Graphene of certain mass or graphene/carbon nano-tube mixed-powder are placed in mixed solvent In, through mechanical agitation and ultrasonic disperse after, be obtained conductive dispersions；

(3) prepared by graphene-based conductive fiber：Using coating processes, above-mentioned made conductive dispersions are homogeneously applied to through upper State on pretreated macromolecular fibre, the graphene-based conductive fiber of high conductivity is obtained after online washing drying.

2. the preparation method of the graphene-based conductive fiber of high conductivity according to claim 1, it is characterised in that：It is described Macromolecular fibre is the one kind in polyester fiber, fine cotton, polyester-cotton blend fibre and Fypro in step (1)；Organic solvent be acetone, One or two in ethanol；Alkali lye is sodium hydrate aqueous solution, and concentration is 0.1-4mol/L；Macromolecular fibre is in organic solvent 1-50s and 1-100s are respectively with the infiltrating time in alkali lye.

3. the preparation method of the graphene-based conductive fiber of high conductivity according to claim 1, it is characterised in that：It is described The average number of plies of Graphene is 1-1000 layers in step (2), and lamella average-size is 0.01-500 μm；The caliber of CNT is 10-50nm, length is 200-1000nm；The content of Graphene or graphene/carbon nano-tube powder in dispersion liquid is 0.1- 50%；Mixed solvent is two or three in hydroxy benzenes, organic acid, dimethylformamide, sulfuric acid, acetylenetetrachloride and water.

4. the preparation method of the graphene-based conductive fiber of high conductivity according to claim 1, it is characterised in that：Xiang Bu Suddenly appropriate dispersing aid is added in (2) made conductive dispersions, and is aided with strong stirring or ultrasound, make Graphene or Graphene/ CNT is dispersed.

5. the preparation method of the graphene-based conductive fiber of high conductivity according to claim 1, it is characterised in that：It is described Coating speed is 1-500m/min in step (3), and conductive dispersions temperature is between 10-800 DEG C during coating.

6. the preparation method of the graphene-based conductive fiber of high conductivity according to claim 1, it is characterised in that：It is made The specific insulation of graphene-based conductive fiber is 10^-2-10⁷Ω·cm。