CN103074757A - Method for preparing structural color fibers by electrophoretic deposition - Google Patents

Abstract

The invention relates to a method for preparing structural color fibers by electrophoretic deposition. The method comprises the steps as follows: taking methyl methacrylate MMA and potassium peroxodisulfate as initial raw materials; preparing polymethyl methacrylate PMMA nanospheres by adopting an emulsion polymerization method; mixing the PMMA nanospheres with de-ionized water to obtain a dispersion solution; placing the dispersion solution into an annular container; placing a fiber or a bundle of fibers in the center of the annular container; carrying out electrophoretic deposition through an additional electric field; pulling out the fibers from the container; and drying to prepare the structural color fibers assembled by the PMMA nanospheres. The structural color fibers prepared with the method are excellent in optical performance, do not require toxic chemical dyes and have an important reference value for reducing the environmental pollution in the dyeing and finishing industry.

Description

A kind of electrophoretic deposition prepares the method for schemochrome fiber

Technical field

The invention belongs to the stock-dye field, particularly a kind of electrophoretic deposition prepares the method for schemochrome fiber.

Background technology

China is a weaving big country, textile industry is occupied very important status in national economy, but exist a large amount of heavy metal ion and poisonous intermediate in the traditional dyeing process of the used fiber of textile material, these cause serious negative effect to human and environment.Present scholar both domestic and external is constantly doing aspect the pollution-free fiber in preparation and is contributing, reported in the silkworm larva that fluorescent dye is injected into domestication in Advanced Materials Vol.23 (2011) pp.1463-1466 such as M.Y.Han etc., by changing the eating habit of silkworm, can directly produce the silk fiber with fluorescence developing performance, but need the irradiation of extraneous ultraviolet light just can reach fluorescent effect.And structure dyeing can become the good solution that addresses this problem, it is to make light wave and fiber surface micro-structural generation scattering, diffraction or interference and the versicolor physical process that produces, is the biomimetic concept that is derived from occurring in nature butterfly's wing, opal structural colour developing.If can form one deck schemochrome on the surface of fiber, can effectively overcome the defective in the traditional dyeing process and bring up intelligent structure coloring fiber.

In schemochrome fiber research field, researcher both domestic and external was actively seeking simple to operate, the effective route of giving fiber color in recent years.K.Q.Zhang etc. have reported on the surface of glass fibre at J.Fiber Bioeng.Inform.Vol.2 (2010) pp.214-218 and have assembled one deck SiO by the method that dips deposition ₂Nanosphere has been realized schemochrome, but this method lacks long-range order; Applicants etc. have reported in Chemical Communications Vol.47 (2011) pp.12801-12803 at fiberglass surfacing self assembly one deck opal structural, thus the target of realization fiberglass surfacing schemochrome; M.Skorobogatiy etc. are at Optics Express, the preparation polymer photon crystal fiber has also been found the effect of schemochrome among Vol.16 (2008) pp.15677-15693, when incident light is propagated in the optical fiber of the PMMA/PS of its preparation sandwich construction, because the difference of refractive index between the sandwich construction, part light appears from optical fiber, also can observe bright color on the macroscopic view, this provides necessary theoretical foundation and experiment condition for utilizing two-dimensional photon crystal structure to prepare the schemochrome fiber, but prerequisite is that external light source will be arranged; J.J.Baumberg is at Optics Express, among Vol.19 (2011) pp.3144-3154 PS ball is scattered in and utilizes spinning machine to prepare a kind of schemochrome fiber based on opal structural in the polymer, but its colour rendering remains further to be improved.In sum, the schemochrome fiber for preparing the regulation and control of a kind of electric field still has certain theory and realistic meaning.

Summary of the invention

Technical problem to be solved by this invention provides the method that a kind of electrophoretic deposition prepares the schemochrome fiber, the prepared schemochrome fiber of the present invention has excellent optical property, the present invention need not poisonous chemical dye, and the environmental pollution that reduces Dyeing ﹠ Finishing Industry is had important reference value.

Take methyl methacrylate MMA, potassium peroxydisulfate as initiation material, adopt emulsion polymerization to prepare the polymetylmethacrylate nanosphere, and polymetylmethacrylate nanosphere and deionized water are mixed to get dispersion liquid; Dispersion liquid is placed toroidal container, single or mass of fibers are placed the center of toroidal container, by the additional electric field electrophoretic deposition, then fiber is pulled out from container, dry, prepare the schemochrome fiber of PMMA nanosphere assembling, realize blue, green, red schemochrome fiber by the particle diameter that changes the PMMA nanosphere; The mole proportioning of methyl methacrylate MMA and potassium peroxydisulfate is: 1:100 ~ 8:100.

The particle diameter of described PMMA nanosphere is 150 ~ 280nm.

The concentration of described dispersion liquid is 8mg/mL ~ 40mg/mL.

Described fiber is carbon fiber, electrically conductive organic fibre or metal fibre.

The nanosphere of described preparation schemochrome fiber also can be polystyrene, SiO simultaneously ₂Or ZnS nanosphere.

Described electrophoretic voltage is 2 ~ 12V, and sedimentation time is 20 ~ 300s.

Temperature dry after described electrophoretic deposition finishes is 75 ~ 90 ℃, and the time is 0.5 ~ 2h.

The present invention implements like this: PMMA nanosphere and the deionized water with the different-grain diameter of preparation is mixed to get dispersion liquid by a certain percentage first; Dispersion liquid is placed toroidal container, single or mass of fibers are placed the center of toroidal container, change the thickness of fiber surface assemble nanometer ball film by regulation voltage and electrophoretic deposition time, deposition is pulled out fiber after finishing from container, and in the baking oven of uniform temperature dry a period of time, prepare the schemochrome fiber of PMMA nanosphere assembling.

Beneficial effect

(1) the present invention be with the PMMA nanosphere in certain ring electric field electrophoretic deposition to carbon fiber, obtain the schemochrome carbon fiber, has excellent optical property, in photon crystal structure dyeing direction important application is arranged, can be used for preparing the adjustable photonic crystal fiber of color, photonic crystal color sensor etc., have a good application prospect;

(2) the present invention need not poisonous chemical dye, and the environmental pollution that reduces Dyeing ﹠ Finishing Industry is had important reference value.

Description of drawings

Fig. 1 electrophoretic deposition prepares schemochrome carbon fiber schematic diagram;

The green schemochrome carbon fiber of Fig. 2: (a) digital photograph; (b) optical microscope photograph;

The green schemochrome carbon fiber of Fig. 3 reverberation spectrogram;

Green schemochrome carbon fiber low power (left side) high power (right side) the field emission scanning electron microscope figure of Fig. 4;

The blue schemochrome carbon fiber of Fig. 5 optical microscope photograph;

Field emission scanning electron microscope figure (left side) blueness of Fig. 6 schemochrome carbon fiber, (right side) redness.

The specific embodiment

Below in conjunction with specific embodiment, further set forth the present invention.Should be understood that these embodiment only to be used for explanation the present invention and be not used in and limit the scope of the invention.Should be understood that in addition those skilled in the art can make various changes or modifications the present invention after the content of having read the present invention's instruction, these equivalent form of values fall within the application's appended claims limited range equally.

Embodiment 1

Take methyl methacrylate (MMA), potassium peroxydisulfate as initiation material, adopt emulsion polymerization to prepare polymethyl methacrylate (PMMA) nanosphere of 240nm, and with itself and deionized water by a certain percentage mixed preparing go out the dispersion liquid of 8mg/mL; Dispersion liquid is placed toroidal container, single or a branch of carbon fiber is placed the center of toroidal container, by regulating electrophoretic voltage (12V), sedimentation time (20s) changes the thickness of fiber surface assemble nanometer ball film, deposition is pulled out carbon fiber after finishing from container, and in 75 ℃ baking oven dry 1h, prepare the schemochrome carbon fiber of PMMA nanosphere assembling.Fig. 1 is that electrophoretic deposition prepares schemochrome carbon fiber schematic diagram; Fig. 2 is digital photograph and the optical microscope photograph of green schemochrome carbon fiber, and carbon fiber surface presents obvious green as seen from the figure; Fig. 3 is the reverberation spectrogram of this sample, and the position of reflection peak is 580nm; Fig. 4 is green schemochrome carbon fiber low power (left side) high power (right side) field emission scanning electron microscope figure, and fiber surface presents obvious close side six packed structures as seen from the figure.

Embodiment 2

Take methyl methacrylate (MMA), potassium peroxydisulfate as initiation material, adopt emulsion polymerization to prepare polymethyl methacrylate (PMMA) nanosphere of 150nm, and with itself and deionized water by a certain percentage mixed preparing go out the dispersion liquid of 20mg/mL; Dispersion liquid is placed toroidal container, single or a branch of carbon fiber is placed the center of toroidal container, by regulating electrophoretic voltage (2V), sedimentation time (180s) changes the thickness of fiber surface assemble nanometer ball film, deposition is pulled out carbon fiber after finishing from container, and in 90 ℃ baking oven dry 0.5h, prepare the schemochrome carbon fiber of PMMA nanosphere assembling.Fig. 5 is the blue schemochrome carbon fiber of this sample optical microscope photograph, and Fig. 6 (left side) is field emission scanning electron microscope figure.

Embodiment 3

Take methyl methacrylate (MMA), potassium peroxydisulfate as initiation material, adopt emulsion polymerization to prepare polymethyl methacrylate (PMMA) nanosphere of 280nm, and with itself and deionized water by a certain percentage mixed preparing go out the dispersion liquid of 40mg/mL; Dispersion liquid is placed toroidal container, single or a branch of carbon fiber is placed the center of toroidal container, by regulating electrophoretic voltage (8V), sedimentation time (300s) changes the thickness of fiber surface assemble nanometer ball film, deposition is pulled out carbon fiber after finishing from container, and in 80 ℃ baking oven dry 2h, prepare the schemochrome carbon fiber of PMMA nanosphere assembling.Fig. 6 (right side) is the field emission scanning electron microscope figure of this sample.

Claims (6)

1. an electrophoretic deposition prepares the method for schemochrome fiber, comprising:

Take methyl methacrylate MMA, potassium peroxydisulfate as initiation material, adopt emulsion polymerization to prepare the polymetylmethacrylate nanosphere, and polymetylmethacrylate nanosphere and deionized water are mixed to get dispersion liquid; Dispersion liquid is placed toroidal container, single or mass of fibers are placed the center of toroidal container, by the additional electric field electrophoretic deposition, then fiber is pulled out from container, dry, prepare the schemochrome fiber of PMMA nanosphere assembling, the mole proportioning of methyl methacrylate MMA and potassium peroxydisulfate is 1:100 ~ 8:100.

2. a kind of electrophoretic deposition according to claim 1 prepares the method for schemochrome fiber, it is characterized in that: the particle diameter of described PMMA nanosphere is 150 ~ 280nm.

3. a kind of electrophoretic deposition according to claim 1 prepares the method for schemochrome fiber, it is characterized in that: the concentration of described dispersion liquid is 8mg/mL ~ 40mg/mL.

4. a kind of electrophoretic deposition according to claim 1 prepares the method for schemochrome fiber, it is characterized in that: described fiber is carbon fiber, electrically conductive organic fibre or metal fibre.

5. a kind of electrophoretic deposition according to claim 1 prepares the method for schemochrome fiber, it is characterized in that: described electrophoretic voltage is 2 ~ 12V, and sedimentation time is 20 ~ 300s.

6. a kind of electrophoretic deposition according to claim 1 prepares the method for schemochrome fiber, it is characterized in that: temperature dry after described electrophoretic deposition finishes is 75 ~ 90 ℃, and the time is 0.5 ~ 2h.

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