CN101745352B

CN101745352B - Superhydrophobic surface material and special nano-particles thereof with core-shell structures

Info

Publication number: CN101745352B
Application number: CN2009102418567A
Authority: CN
Inventors: 王倩; 杨振忠
Original assignee: Institute of Chemistry CAS
Current assignee: Institute of Chemistry CAS
Priority date: 2009-12-15
Filing date: 2009-12-15
Publication date: 2012-05-30
Anticipated expiration: 2029-12-15
Also published as: CN101745352A

Abstract

The invention discloses a superhydrophobic surface material and special nano-particles thereof with core-shell structures. The superhydrophobic material with surface having superhydrophobic performance is prepared by enabling the nano-particles with core-shell structures to form an interface in a certain strength with a substrate under the action of an adhesive, and then, hydrophobically treating the interface. The surface of the superhydrophobic material presents the superhydrophobic property and has a contact angle larger than 150 degrees and a rolling angle smaller than 5 degrees so that water drops on the surface can rapidly roll off. The superhydrophobic surface material provided by the invention has favorable purposes in the field of preparing an antifogging material, a waterproof material, a self-cleaning material, a lubricating drag-reducing material, and the like. The method for preparing the superhydrophobic material has the advantages of simple process and cheap raw materials, thereby being suitable for mass production.

Description

Superhydrophobic surface material and special-purpose nano particle thereof with nucleocapsid structure

Technical field

The present invention relates to a kind of hydrophobic surface field that the present invention relates to, particularly superhydrophobic surface material and special-purpose nano particle thereof with nucleocapsid structure.

Background technology

Hydrophobic surface is meant and the material surface of water droplet contact angle greater than 90 degree; Super hydrophobic surface is meant with the contact angle of water droplet spends the material surface of while roll angles less than 5 degree greater than 150.The main points on constructing super-drainage surface are to construct certain roughness and carry out surface chemical modification.The Jiang Lei researcher of Institute of Chemistry, Academia Sinica in 2002 proposes also to exist nanostructured (Feng L, Li S H, Li Y S on the mastoid process that the super-hydrophobic basic reason of lotus leaf surface is the lotus leaf surface micrometer structure; Li H J, Zhang L J, Zhai J; Song Y L, Liu B Q, Jiang L; Zhu D B. " Super-hydrophobic Surface:From Natural to Artificial ", Adv.Mater.2002 141857).After this mainly concentrate on the control of nanostructured for the research of bionical super hydrophobic material.Main method has: template, photoetch method, sol-gal process, electrochemical method, self-assembly method, metal erosion method, electrical spinning method, solvent-nonsolvent method etc.Yet said method does not have good universality, has very high restrictive condition for material, can't produce on a large scale and use simultaneously.

Summary of the invention

The purpose of this invention is to provide superhydrophobic surface material and special-purpose nano particle thereof with nucleocapsid structure.

The invention provides three kinds of nano particles that are used to prepare superhydrophobic surface material, be respectively compound hollow ball of inorganic matter microcapsules, polyaniline-polystyrene and surperficial inorganic matter hollow microsphere with column structure with nucleocapsid structure with nucleocapsid structure.

The present invention also provides the superhydrophobic surface material that utilizes above-mentioned preparation of nanoparticles with nucleocapsid structure to obtain.

Nano particle with nucleocapsid structure provided by the invention is the inorganic matter microcapsules, is made up of stratum nucleare and the shell that surrounds said stratum nucleare; Wherein, the material that constitutes said stratum nucleare is selected from least a in calcium chloride, calcium hydroxide, calcium nitrate, calcium acetate, calcium phosphate, magnesium chloride, magnesium hydroxide, magnesium nitrate, magnesium acetate, magnesium phosphate, barium chloride, barium hydroxide, barium nitrate, barium acetate and the barium phosphate; The material that constitutes said shell is selected from least a in polystyrene, polyethylene, polymethyl methacrylate, polyethyl methacrylate, polypropylene, epoxy resin and the cellulose.

The above-mentioned method of preparation provided by the invention with nano particle-inorganic matter microcapsules of nucleocapsid structure; Be to prepare: the material of the said shell of said formation is added poor solvent and precipitates in organic solvent with behind the material mixing of the said stratum nucleare of said formation, clean said post precipitation and obtain said nano particle-inorganic matter microcapsules with nucleocapsid structure according to the method that comprises the steps.

In this method, said organic solvent is selected from carrene, chloroform, carbon tetrachloride, toluene, xylenes, pyridine, oxolane, N, dinethylformamide and N, at least a in the N-dimethylacetylamide; Said poor solvent is selected from least a in the alkane that benzinum, ethanol and carbon number are 4-10; The ratio of weight and number of the material of the material of the said shell of said formation, said organic solvent and the said stratum nucleare of said formation is 0.1-3: 1-100: 0.1-10; Specifically can be 0.3-3: 10-30: 0.1-1,0.1-0.3: 10-30: 0.1-3,0.1-0.3: 10-30: 1-3,0.1-0.3: 30-100: 3-10 or 0.1-5: 15-50: 1-5, preferred 0.1-0.3: 10-30: 1-3.

The compound hollow ball of nano particle-polyaniline-polystyrene with nucleocapsid structure provided by the invention is made up of stratum nucleare and the shell that surrounds said stratum nucleare; Wherein, said stratum nucleare is a hollow; The material that constitutes said shell is the compound of polyaniline and polystyrene, and in this compound, polyaniline combines with physics mode (like physical absorption) with polystyrene.

The above-mentioned method with nano particle-polyaniline-compound hollow ball of polystyrene of nucleocapsid structure of preparation provided by the invention comprises the steps:

1) water, acid, aniline are mixed with the polystyrene hollow microsphere, stir, centrifugal;

2) separator that said step 1) is centrifugal after finishing is scattered in the mixed liquor that water and oxidant form, stirs, obtain said nano particle with nucleocapsid structure.

In the step 1) of this method, said acid is selected from least a in hydrochloric acid, sulfuric acid, nitric acid, acetic acid and the phosphoric acid; The diameter of said polystyrene hollow microsphere is 100nm～100 μ m; The temperature of whipping step is 10-50 ℃, and the time of whipping step is 5 minutes-24 hours; The rotating speed of centrifugation step is 8000～12000 rev/mins, and the time of centrifugation step is 5-20 minute;

Said step 2) in, said oxidant is selected from least a in ferric trichloride, ammonium persulfate, potassium bichromate and the hydrogen peroxide solution; The temperature of whipping step is 10-50 ℃, and the time of whipping step is 10 minutes-24 hours;

Water in the said step 1), acid, aniline, said polystyrene hollow microsphere, said step 2) in water and said step 2) in the ratio of weight and number of oxidant be 1-30: 0.1-2: 0.1-2: 0.001-1: 10-1000: 0.1-2, specifically can be 10-30: 0.1-1.5: 0.1-1.5: 0.001-0.05: 50-900: 0.1-0.15,5-25: 0.1-1.5: 0.1-0.15: 0.005-0.09: 100-900: 0.1-1.5 or 10-25: 0.15-1.0: 0.15-1.0: 0.005-0.01: 100-500: 0.12-0.18.

Nano particle-surface with nucleocapsid structure provided by the invention has the inorganic matter hollow microsphere of column structure, is made up of stratum nucleare and the shell that surrounds said stratum nucleare; Wherein, said stratum nucleare is a hollow; The material that constitutes said shell is selected from a kind of in titanium dioxide, silica, zirconia, tin oxide and the aluminium oxide; The inorganic matter that has column structure at said shell material surface; Said inorganic matter is consistent with the shell material.

Above-mentioned nano particle-the surface with nucleocapsid structure of preparation provided by the invention has the method for the inorganic matter hollow ball of column structure, comprises the steps:

1) the polystyrene hollow microsphere is scattered in the water, centrifugal;

2) separator with said step 1) centrifugation step gained is scattered in the ethanol, and gradation adds the mixed liquor of inorganic matter presoma and ethanol, and is centrifugal, and the organic solution washing with polystyrene obtains said nano particle with nucleocapsid structure.

In the step 1) of this method, the diameter of said polystyrene hollow microsphere is 400nm-100 μ m;

Said step 2) in, said inorganic matter presoma is selected from Si (OCH ₃) ₄, Si (OCH ₂CH ₃) ₄, Si{OCH (CH ₃) ₂} ₄, Si (OCH ₂CH ₂CH ₂CH ₃) ₄, Na ₂SiO ₃, TiCl ₄, Ti (OCH ₃) ₄, Ti (OCH ₂CH ₃) ₄, Ti{OCH (CH ₃) ₂} ₄, Ti (OCH ₂CH ₂CH ₂CH ₃) ₄, TiOSO ₄, SnCl ₄, Sn (OCH ₃) ₄, Sn (OCH ₂CH ₃) ₄, Sn{OCH (CH ₃) ₂} ₄, Sn (OCH ₂CH ₂CH ₂CH ₃) ₄, ZrCl ₄, Zr (OCH ₃) ₄, Zr (OCH ₂CH ₃) ₄, Zr{OCH (CH ₃) ₂} ₄, Zr (OCH ₂CH ₂CH ₂CH ₃) ₄, AlCl ₃, Al (OCH ₃) ₄, Al (OCH ₂CH ₃) ₄, Al{OCH (CH ₃) ₂} ₄, Al (OCH ₂CH ₂CH ₂CH ₃) ₄And Al ₂(SO ₄) ₃In any one; In the organic solution of said polystyrene; Organic solvent is selected from toluene, xylenes, carrene, chloroform, oxolane, N; Dinethylformamide, N; At least a in N-dimethylacetylamide, cyclohexane and the ethyl acetate is as long as the consumption of this organic solvent guarantees polystyrene is dissolved fully; The ratio of weight and number of the mixed liquor of said polystyrene hollow microsphere, said water, said ethanol, each said inorganic matter presoma that adds and ethanol is 0.1-1: 1-20: 5-100: 0.1-2; But concrete 0.1-0.2: 1-5: 20-100: 0.1-0.2,0.2-1: 5-20: 20-100: 0.2-2 or 0.15-0.5: 3-15: 10-50: 0.1-1.5 are preferred: 0.2: 5: 20: 0.2.The rotating speed of said centrifugation step is 5000-15000 rev/min, preferred 12000 rev/mins; The centrifugal time is 2-20 minute, preferred 5 minutes; The number of times that adds said inorganic matter presoma and ethanol is 8-15; In the mixed liquor of said inorganic matter presoma and ethanol, the volume ratio of said inorganic matter presoma and ethanol is 1: 1.

Superhydrophobic surface material provided by the invention is made up of in substrate, adhesive and the aforementioned three kinds of nano particles with nucleocapsid structure provided by the invention any one.

In this material, said substrate is selected from least a in glass, pottery, stone material, metal, alloy and the macromolecular material; Said stone material can be sheet material; Said adhesive is selected from least a in epoxy resin, phenolic resins, acrylic acid ester, polyurethane, unsaturated polyester (UP), Lauxite, rubber and the inorganic matter; Wherein, at least a in the preferred iron of said metal, nickel, copper, zinc, aluminium, titanium and the cadmium; In the preferred iron of said alloy, nickel, copper, zinc, aluminium, titanium and the cadmium at least two kinds; Said macromolecular material is at least a in polyethylene, polypropylene, polyvinyl chloride, polyester, polyamide, polyurethane, wool and linen-cotton preferably, can be film, perforated membrane, fiber or porous fibre and fabric thereof.

Preparation provided by the invention is above-mentioned by said substrate, said adhesive and said method with nano particle-said superhydrophobic surface material that the inorganic matter hollow microcapsule is formed of nucleocapsid structure, comprises the steps:

1) with said nano particle-inorganic matter hollow microcapsule and the bonding formation coating of said substrate with nucleocapsid structure;

2) said coating is soaked in stearate or the stearic solution, reaction finishes and obtains said superhydrophobic surface material.

Step 2) in, said stearate is selected from least a in potassium stearate and the odium stearate; Said stearate or stearic mass percentage concentration are 0.1～2%, specifically can be 0.5-2%, 1.0-1.5% or 1.0-2.0%; In said stearate or the stearic solution, solvent is selected from water or water and ethanol with any mixed liquor than mixing; The time of reaction is 1～24 hour, and the temperature of reaction is 5-60 ℃.

Preparation provided by the invention has the method for the said superhydrophobic surface material that the nano particle of the inorganic matter hollow ball of column structure forms by said substrate, said adhesive and the compound hollow ball of polyaniline-polystyrene or surface, comprises the steps:

1) with compound hollow ball of polyaniline-polystyrene or surperficial nano particle and the bonding formation coating of said substrate with inorganic matter hollow ball of column structure;

2) said coating is soaked in the organic solvent of the substituted silane coupler of alkyl, reaction finishes and obtains said superhydrophobic surface material.

The step 2 of this method) in, the substituted silane coupler of said alkyl is selected from (C ₂H ₅O) ₃Si-(CH ₂) _nCH ₃, (CH ₃O) ₃Si-(CH ₂) _nCH ₃And Cl ₃Si-(CH ₂) _nCH ₃In at least a; Said n is the integer of 0-17; The mass percentage concentration of the organic solvent of the substituted silane coupler of said alkyl is 0.1%～10%, specifically can be 0.1-5%, 1-5%, 1-9%, 0.1-9% or 0.1-1%; The temperature of reaction is 10-50 ℃; The time of reaction is 5 minutes～24 hours.

In addition, the application of superhydrophobic surface material provided by the invention in antifog, the waterproof of preparation, automatically cleaning or lubrication drag reduction material also belongs to protection scope of the present invention.

In the above-mentioned method for preparing super hydrophobic material, the bonding method of step 1) can be various methods commonly used, like any one method among following method a, b and the c:

Method a: treat in the said adhesive solvent evaporates fully after; Any one powder with nano particle of nucleocapsid structure that the invention described above is provided is covered in the substrate surface that scribbles said adhesive; The thickness of adhesive is 1 micron～1 millimeter, solidifies down at 5 ℃～150 ℃ to get final product;

Method b: any one dispersion liquid (mass percentage concentration of said dispersion liquid is 1%～90%) with nano particle of nucleocapsid structure that the invention described above is provided is applied to the substrate with adhesive with immersing the method that lifts coating (rate of extension 0.05～150 cm per minute), spin coating (10～8000 rev/mins of rotary speeies), brushing, spraying or blade coating, solidifies down at 5 ℃～150 ℃ to get final product;

Method c: the dispersion liquid (mass percentage concentration of said dispersion liquid is 1%～90%) that any one that the invention described above is provided has a nano particle of nucleocapsid structure is compound with method for sizing and fiber or its fabric; Starching speed is 0.05～15000 cm per minute), curing gets final product under 5 ℃～150 ℃.

The invention provides one type of nano particle, and utilize above-mentioned particle at different base surface construction super hydrophobic surface with nucleocapsid structure.This hydrophobic material face reveals super-hydrophobic character, and contact angle is greater than 150 degree, and roll angle is less than 5 degree, and water droplet can tumble rapidly on its surface.Field of materials such as superhydrophobic surface material provided by the invention is antifog in preparation, waterproof, automatically cleaning, lubrication drag reduction all have favorable application.The method of the above-mentioned hydrophobic material of preparation provided by the invention, technology is simple, and the used prices of raw and semifnished materials are cheap, are suitable for large-scale production.

Description of drawings

Fig. 1 is the electron scanning micrograph of the calcium hydroxide microcapsules of the embodiment of the invention 1.

Fig. 2 is the electron scanning micrograph of the superhydrophobic surface material that is obtained by the modification of calcium hydroxide microcapsules of the embodiment of the invention 1.

Fig. 3 is the static contact angle photo of the water droplet of the embodiment of the invention 1 at superhydrophobic surface material.

Fig. 4 is the electron scanning micrograph of the polyaniline with the bionical micron-nanometer hierarchical structure-polystyrene complex microsphere of the embodiment of the invention 2.

Fig. 5 is the static contact angle photo of the water droplet of the embodiment of the invention 2 at superhydrophobic surface material.

Fig. 6 is the stereoscan photograph of the polystyrene hollow microsphere with column structure of the embodiment of the invention 3

Fig. 7 is the static contact angle photo of the water droplet of the embodiment of the invention 3 at superhydrophobic surface material.

The specific embodiment

Below in conjunction with specific embodiment the present invention is described further, but the present invention is not limited to following examples.

Embodiment 1

1. the polymethyl methacrylate with 0.5 gram is dissolved in the 20ml carrene, adds the calcium hydroxide of 1.5g, mixes the back and drips the 80ml benzinum.With the products therefrom suction filtration, clean repeatedly 3～4 times with benzinum, promptly obtain the inorganic matter microcapsules.

With ECA with (2000 rev/mins of the methods of spin-coating; 20 seconds) on sheet glass, film; Behind room temperature oven dry 30min; The alcohol dispersion liquid of the complex microsphere of the bionical micron-nanometer hierarchical structure of having of step 1 gained is sprayed on the above-mentioned sheet glass, continues to solidify 2 hours in room temperature.

3. the coating that makes in the step 2 is soaked in the solution that mass percentage concentration is 1% potassium stearate, reacted 8 hours, the surfacing that can obtain having superhydrophobic property after dry.

The electron scanning micrograph of these inorganic matter microcapsules is shown in accompanying drawing 1.The electron scanning micrograph of this superhydrophobic surface material is shown in accompanying drawing 2.Water droplet at the static contact angle of this surfacing shown in accompanying drawing 3.Water droplet is 162.1 degree in the static contact angle measured value of this surfacing.Water droplet is 2 degree in the roll angle measured value of this surfacing.

Embodiment 2

1. be that 1 micron the polystyrene hollow microsphere aqueous solution (solid content is 27.5%) is dispersed in the 2mol/L hydrochloric acid solution of 30ml with the 100mg diameter; Add the 3.6ml aniline monomer; Mix; Stirred at ambient temperature 24 hours, the even mixed liquor that obtains centrifugal 5 minutes with 12000 rev/mins speed, the centrifugal separator that obtains is scattered in the FeCl of 0.2mol/L ₃In the aqueous solution, at room temperature stirred 24 hours.Centrifugal, the washing of speed with 8000 rev/mins, promptly obtaining diameter is the polyaniline-polystyrene complex microsphere of the bionical micron-nanometer hierarchical structure of 1 micron have.

2. be the acetone soln of 20% F46 type novolac epoxy resin with weight percent concentration, select N for use, the N-dimethyl benzylamine is as curing agent; Its weight is 10% of said weight epoxy, mixes, with (2000 rev/mins of the methods of spin-coating; 20 seconds) on poly (methyl methacrylate) plate, film; 80 ℃ of oven dry after 20 minutes, the alcohol dispersion liquid of the complex microsphere with micron-nanometer hierarchical structure of step 1 gained is sprayed on the above-mentioned sheet glass, continue to solidify 2 hours at 100 ℃.

3. it is that 1% octadecyl replaces in the hexane solution of trichlorosilane that above-mentioned rough surface with intensity is soaked in mass percentage concentration, at room temperature reacts 4 hours, and with n-hexane flushing twice, alcohol flushing twice promptly obtains superhydrophobic surface material.

This electron scanning micrograph of polyaniline-polystyrene complex microsphere with micron-nanometer hierarchical structure is shown in accompanying drawing 4.Water droplet at the static contact angle of this superhydrophobic surface material shown in accompanying drawing 5.

This diameter with polyaniline-polystyrene complex microsphere of micron-nanometer hierarchical structure is 1 micron, and the length of the polyaniline mastoid process of microsphere surface is 30nm.Water droplet is 153.7 degree in the static contact angle measured value of this superhydrophobic surface material.Water droplet is 3 degree in the roll angle measured value of this surfacing.

Embodiment 3

1. be that 1 micron polystyrene hollow microsphere is dispersed in the water with the 20mg diameter; After 24 hours with emulsion centrifugal 5 minutes with 12000 rev/mins speed; The centrifugal separator that obtains washes twice with ethanol, is scattered in the ethanol, per hour adds the tetrabutyl titanate of 0.2ml and the mixed solution of ethanol (both volume ratios are 1: 1); Add altogether 15 times; The mixed liquor that obtains is centrifugal, clean the back repeatedly with ethanol and wash 2～3 times with the toluene solution of polystyrene, promptly obtain the titanium dioxide hollow microballoon that the surface has column structure.

2. with weight percent concentration the acetone soln of 20% bisphenol A type epoxy resin (E51 type);, mix as curing agent with the triethylene tetramine of weight epoxy 5%, with (2000 rev/mins of the methods of spin-coating; 20 seconds) on plastic sheet, film; 60 ℃ of oven dry after 10 minutes, the alcohol dispersion liquid of the polystyrene complex microsphere with column structure of step 1 gained is sprayed on the above-mentioned sheet glass, continue to solidify 2 hours at 80 ℃.

3. it is that 1% octadecyl replaces in the n-decane solution of trichlorosilane that above-mentioned rough surface with intensity is soaked in mass percentage concentration, at room temperature reacts 4 hours, and with n-hexane flushing twice, alcohol flushing twice promptly obtains superhydrophobic surface material.

This superhydrophobic surface material is surperficial titanium dioxide hollow microballoon with column structure, and its electron scanning micrograph is shown in accompanying drawing 6.

Embodiment 4

1. the ethyl cellulose with 0.2 gram is dissolved in the 20ml carrene, adds the barium hydroxide of 2g, mixes the back and drips the 80ml benzinum.With the products therefrom suction filtration, clean repeatedly 3～4 times with benzinum, promptly obtain the inorganic matter microcapsules.

2. the dispersion liquid of the nano particle that makes (mass percentage concentration is 5%) is applied at the bottom of the aluminum plate foundation with ECA with immersing the method that lifts coating (rate of extension 0.05 cm per minute); Cold curing makes nano particle and substrate form the coating with intensity.

3. the coating that makes in the step 2 is soaked in the solution of 0.5% potassium stearate (ethanol: water, 1: 1), reacted 8 hours, the surfacing that can obtain having superhydrophobic property after dry.Electron scanning micrograph and Fig. 2 of this material do not have substantive difference.Water droplet does not also have substantive difference at the static contact angle measured value and the water droplet of this surfacing in the roll angle measured value of this surfacing and the result of embodiment 1.

Embodiment 5

1. be that the polystyrene hollow microsphere aqueous solution (solid content is 37.5%) of 400 nanometers is dispersed in the 2mol/L hydrochloric acid solution of 30ml with the 100mg diameter; Add the 3.6ml aniline monomer; Mix; Stirred at ambient temperature 24 hours, the even mixed liquor that obtains centrifugal 5 minutes with 12000 rev/mins speed, the centrifugal separator that obtains is scattered in the FeCl of 0.2mol/L ₃In the aqueous solution, at room temperature stirred 24 hours.Centrifugal, the washing of speed with 8000 rev/mins, promptly obtaining diameter is the polyaniline with the micron-nanometer hierarchical structure-polystyrene complex microsphere of 400 nanometers.

2. fabric face is scribbled the acetone soln that mass percentage concentration is 3% bisphenol A type epoxy resin E51 type; With the triethylene tetramine of weight epoxy 5% as curing agent; 60 ℃ the oven dry 10 minutes after; The alcohol dispersion liquid of the complex microsphere of the bionical micron-nanometer hierarchical structure of having of step 1 gained is sprayed on the above-mentioned fabrics, continues to solidify 2 hours, make complex microsphere and substrate formation have the coating of intensity at 80 ℃.

3. above-mentioned fabrics being soaked in mass percentage concentration is that 1% myristyl replaces in the n-decane solution of trichlorosilane, at room temperature reacts 4 hours, and with n-hexane flushing twice, alcohol flushing twice promptly obtains superhydrophobic surface material.

Stereoscan photograph and Fig. 4 of this superhydrophobic surface material do not have substantive difference.Water droplet the static contact angle measured value of this superhydrophobic surface material and water droplet the roll angle measured value of this surfacing all with embodiment 2 no substantive differences.

Claims

1. the nano particle with nucleocapsid structure is made up of stratum nucleare and the shell that surrounds said stratum nucleare; It is characterized in that: the material that constitutes said stratum nucleare is selected from least a in calcium chloride, calcium hydroxide, calcium nitrate, calcium acetate, calcium phosphate, magnesium chloride, magnesium hydroxide, magnesium nitrate, magnesium acetate, magnesium phosphate, barium chloride, barium hydroxide, barium nitrate, barium acetate and the barium phosphate; The material that constitutes said shell is selected from least a in polystyrene, polyethylene, polymethyl methacrylate, polyethyl methacrylate, polypropylene, epoxy resin and the cellulose.

2. one kind prepares the said method with nano particle of nucleocapsid structure of claim 1; Be to prepare: the material of the said shell of said formation is added poor solvent and precipitates in organic solvent with behind the material mixing of the said stratum nucleare of said formation, clean said post precipitation and obtain said nano particle with nucleocapsid structure according to the method that comprises the steps.

3. method according to claim 2; It is characterized in that: said organic solvent is selected from carrene, chloroform, carbon tetrachloride, toluene, xylenes, pyridine, oxolane, N; Dinethylformamide and N, at least a in the N-dimethylacetylamide; Said poor solvent is selected from least a in the alkane that benzinum, ethanol and carbon number are 4-10; The ratio of weight and number of the material of the material of the said shell of said formation, said organic solvent and the said stratum nucleare of said formation is 0.1-3: 1-100: 0.1-10.

4. method according to claim 3 is characterized in that: the ratio of weight and number of the material of the material of the said shell of said formation, said organic solvent and the said stratum nucleare of said formation is 0.1-0.3: 10-30: 1-3.

5. a superhydrophobic surface material is made up of the said nano particle with nucleocapsid structure of substrate, adhesive and claim 1.

6. material according to claim 5 is characterized in that: said substrate is selected from least a in glass, pottery, stone material, metal, alloy and the macromolecular material; Said adhesive is selected from least a in epoxy resin, phenolic resins, acrylic acid ester, polyurethane, unsaturated polyester (UP), Lauxite, rubber and the inorganic matter.

7. material according to claim 6 is characterized in that: at least a in said metal chosen from Fe, nickel, copper, zinc, aluminium, titanium and the cadmium; In said alloy chosen from Fe, nickel, copper, zinc, aluminium, titanium and the cadmium at least two kinds; Said macromolecular material is selected from least a in polyethylene, polypropylene, polyvinyl chloride, polyester, polyamide, polyurethane, wool and the linen-cotton.

8. one kind prepares among the claim 5-7 each by the said method with said superhydrophobic surface material of the nano particle that nucleocapsid structure forms of said substrate, said adhesive and claim 1, comprises the steps:

1) with said nano particle and the bonding formation coating of said substrate of claim 1 with nucleocapsid structure;

2) said coating is soaked in stearate or the stearic solution, reaction finishes and obtains among the claim 5-7 each by the said said superhydrophobic surface material with nano particle that nucleocapsid structure forms of said substrate, said adhesive and claim 1.

9. method according to claim 8 is characterized in that: said step 2), said stearate is selected from least a in potassium stearate and the odium stearate; Said stearate or stearic mass percentage concentration are 0.1%～2%; In said stearate or the stearic solution, solvent is selected from water or water and ethanol with any mixed liquor than mixing; The time of reaction is 1～24 hour, and the temperature of reaction is 5-60 ℃.

10. the application of each said superhydrophobic surface material in antifog, the waterproof of preparation, automatically cleaning or lubrication drag reduction material among the claim 5-7.