CN1583888A - Preparing method for 3-lonm titania TiO2 nanometer crystal optical catalyst coating - Google Patents
Preparing method for 3-lonm titania TiO2 nanometer crystal optical catalyst coating Download PDFInfo
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- CN1583888A CN1583888A CN 200410013303 CN200410013303A CN1583888A CN 1583888 A CN1583888 A CN 1583888A CN 200410013303 CN200410013303 CN 200410013303 CN 200410013303 A CN200410013303 A CN 200410013303A CN 1583888 A CN1583888 A CN 1583888A
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Abstract
This invention involves a kind of 3-10nm and oxidizes the brilliant light catalyst body coating preparation method of titanium nanometer two times, hydrolysis with nitric acid oxygen titanium (with lean towards titanium sour or make the oxygen titanium of nitric acid with oxygen titanium of sulphuric acid), separate, wash, add water glue to dissolve properly, scattered, can is it include 3-10nm TiO2 nanometer brilliant and non-brilliant and colloidal TiO2 to make, there is all catalysis that degrades organic matter and actinic gas, coating of the sterilization and virus. This method has simple craft, easy extensive production, the raw material sources are wide, cheap, use the characteristic such as being extensive.
Description
Technical field
The present invention relates to a kind of size only is the TiO of 3~10nm
2The method of nanocrystalline photo-catalytic coating belongs to the nano paint field.
Background technology
Titanium dioxide is nontoxic to human body, acid-alkali-corrosive-resisting.It has three kinds of crystal formations: brookite type, Detitanium-ore-type and rutile-type, when their crystal grain is big, their character is different, but after titanium dioxide primary particle particle diameter is less than 10nm, the titanium dioxide of three kinds of crystal formations absorbs the electronics and the hole that produce after the UV-light all can move to particle surface very soon, with the H that is adsorbed on particle surface
2O and O
2Reaction generates hydroxyl radical free radical and crosses negative oxygen ion, thereby produces degradation of organic substances well, sterilization and virus, redox NOx, NH
3, CO, SO
2, obnoxious flavour such as formaldehyde, benzene, toluene, aniline, make them innoxious.The former capital can be used as the photocatalyst in the photo-catalytic coating, and does not grow up to crystalline amorphous TiO
2Or the amorphous that peptization generates then is used as the coating binder for film formation.
Summary of the invention
The purpose of this invention is to provide 3~10nm titanium dioxide TiO that a kind of technology is simple, processing parameter is easy to control
2The preparation method of nanocrystalline photo-catalytic coating.
Further purpose of the present invention is to make technology have suitable national conditions, abundant, the cheap advantage of raw material sources.
Technical scheme provided by the invention is: a kind of 3~10nm titanium dioxide TiO
2The preparation method of nanocrystalline photo-catalytic coating is characterized in that the titanyl nitrate control hydrolysis, generates the TiO of 3~10nm
2Nanocrystalline and a small amount of amorphous precipitation of reuniting, precipitation separation, and with after the little water washing, will precipitate again peptization and be distributed in the water is made and is contained TiO
20.1 the photo-catalytic coating of~31% mass percentage concentration; Control condition during the titanyl nitrate hydrolysis is:
(1) concentration of the titanyl nitrate aqueous solution is controlled at 0.3~4 mol scope;
(2) titanyl nitrate aqueous solution acidity control is in 0.1~6 mol scope;
(3) the ordinary-pressure hydrolysis temperature is 70~109 ℃, and the time is 0.1~2.5 hour.
Aforesaid preparation method, it is characterized in that described titanyl nitrate is that raw material makes with inclined to one side Titanium acid or titanyl sulfate, with inclined to one side Titanium acid be dissolved in the vitriol oil make titanyl sulfate or directly with commercial sulfuric acid oxygen titanium and mineral alkali slowly mix stir the titanic Acid precipitation, the gained throw out is removed SO through washing
2- 4After, it makes titanyl nitrate with nitric acid dissolve, and its control condition is:
(1) mineral alkali is made the precipitation agent of titanyl sulfate, and PH is controlled between 2~8.5 during precipitation, and temperature is below 40 ℃;
(2) concentration of nitric acid of dissolving titanic Acid precipitation is 2~23 mol, and temperature should be controlled at below 68 ℃ during dissolving.
Aforesaid preparation method is characterized in that amorphous TiO
2Be whole TiO
21-10%.
Aforesaid preparation method is characterized in that used mineral alkali is sodium hydroxide, potassium hydroxide, yellow soda ash, salt of wormwood, sodium bicarbonate, saleratus, bicarbonate of ammonia or ammonia and ammoniacal liquor.
Aforesaid preparation method, it is nanocrystalline to it is characterized in that ordinary-pressure hydrolysis produces, and its crystal formation can be a brookite type, Detitanium-ore-type, rutile-type or their mixed crystal.
Preparation method of the present invention is owing to only just obtained the nanometer crystal formation TiO of 3~10nm simultaneously with hydrolysis
2With a small amount of armorphous TiO
2, make that the preparation technology of photo-catalytic coating is simple, processing parameter is easy to control, have significant especially technique effect.
Preparation method of the present invention is owing to inclined to one side Titanium acid or titanyl sulfate being main raw material preparation 3~10nmTiO
2Nanocrystalline photo-catalytic coating, its advantage are to be fit to national conditions, and metatitanic acid or titanyl sulfate raw material sources are abundant, cheap, and it is not high to prepare used equipment requirements.
With titanyl sulfate (or with sulfuric acid dissolution after make titanyl sulfate with metatitanic acid) is feedstock production 3~10nmTiO
2Nanocrystalline photo-catalytic coating is an example, and the concrete technological specification of each flow process is commented as follows:
1, mineral alkali is made the precipitation agent of titanyl sulfate, pH is controlled between 2~8.5 during precipitation, when titanyl sulfate mixes with alkali, should adopt the ice-water bath cooling, or add in the solution with ice and to lower the temperature, and the control mixing velocity, temperature is controlled at below 40 ℃, to prevent that precipitating positive metatitanic acid dehydration generates the nitric acid insolubles, influence is the step dissolving down.Used alkali can be selected sodium hydroxide, potassium hydroxide, salt of wormwood, yellow soda ash, saleratus, sodium bicarbonate, bicarbonate of ammonia, ammonia etc.
2, precipitation after filtration and wash and use Ba
2+Inspection is less than SO
2- 4The time till, the positive metatitanic acid of gained contains TiO
2Amount preferably is controlled at 8~23% (mass percents)
3, the concentration of nitric acid is controlled at 2~23 mol, and acidity control is used the method for cooling controlled temperature in 0.1~6 mol scope during with the positive metatitanic acid of nitric acid dissolve, prevent that temperature from surpassing 68 ℃, causes a large amount of hydrolysis.
4, the titanyl nitrate of dissolving back generation is before hydrolysis, and concentration should be controlled at 0.3~4 mol scope.
5, hydrolysis temperature and time: ordinary-pressure hydrolysis is adopted in hydrolysis, and hydrolysis temperature is 70~109 ℃, and constant temperature time is 0.1~2.5 hour, and making most of hydrolysate is nanocrystal, and the small part hydrolysate is a non-crystalline state.
6, hydrolysate is after separate, can adopting methods separation such as filter press, centrifugation, vacuum filtration, high pressure press filtration, and unnecessary acid is removed in water washing a little, must moisture TiO
2
7, with above-mentioned moisture TiO
2Again be distributed in the water and allow its part peptization, be mixed with and contain TiO
2Mass percent is 0.1~35% colloidal solution, and the dispersive method can adopt ultra-sonic dispersion, mulser dispersion, sand mill dispersion, rubber mill dispersion etc.
8, the pH value with above-mentioned colloidal solution is adjusted in 0.1~3.5, between 4.5~9.5, to avoid the iso-electric point of titanium dioxide fine particles, forms functional and the photo-catalytic coating of strong adhesive power is arranged.
9, the above-mentioned moisture TiO that takes a morsel
2After the drying, measure with XRD, become crystal though contain the amorphous major part, calculate with the Scherrer formula, their primary particle particle diameter is between 3~10nm.
Provided by the invention a kind of be that the main raw material preparation size only is 3~10nmTiO with titanyl nitrate (making titanyl nitrate) with inclined to one side Titanium acid or titanyl sulfate
2The outstanding feature of nanocrystalline photo-catalytic coating method is:
1, this technology is fit to national conditions, raw material sources are abundant, cheap.
2, simple, the processing parameter of preparation technology is easy to control, is easy to scale operation.
3, the photocatalysis performance of product is good, energy degradation of organic substances, photochemical gas, sterilizing and anti-virus.
4, owing to use colloidal sol amorphous TiO
2Do to adhere to membrane-forming agent, adhesive ability is strong, so can be coated on the body surfaces such as glass, wall, cement face, ceramic tile, metal, is widely used.
Embodiment
Below by embodiment, further illustrate outstanding feature of the present invention and marked improvement, only be the present invention is described and never limit the present invention.
Embodiment 1
Vitriol oil oxygen titanium is added in the entry, concentration adjustment is to 0.4 mol, soluble in water with the NaOH solid, concentration adjustment to 1 mol, is slowly mixed both under ice-water bath, and temperature is controlled below 20 ℃, pH stopped by 5 o'clock, after the filtration, washed with water in the precipitation and used Ba
2+Can't check SO
2- 4The time till, the nitric acid that adds concentration then and be 4 mol in the titanic Acid precipitation dissolves it, temperature is controlled at below 30 ℃, be mixed with that to contain titanyl nitrate be 0.3 mol, acidity is that 0.3 mol is heated to 75 ℃ of maintenances 2 hours, and the cooled and filtered precipitation separation will precipitate with less water washing back and take out, again be distributed in the water and go, peptization is mixed with and contains TiO
2The coating of 1% (mass percentage concentration) pH8.5 is coated in this coating on the ceramic tile, after the drying, coats pigment dyestuff and is placed under the sunlight, and color disappears substantially after 3 hours.With measuring with XRD after the small amount of precipitate drying, be Detitanium-ore-type+brookite type substantially, the part amorphous is also arranged, to calculate with the Scherrer formula, its median size is about 6nm.
Embodiment 2
Vitriol oil oxygen titanium is added in the entry, with concentration furnishing 0.8 mol, is that the solution of potassium carbonate of 2 mol mixes in ice bath with it with concentration again, and temperature controls to below 30 ℃, stops during pH3, with sedimentation and filtration, washs and can't check SO
2- 4After, adding concentration in precipitation is 10 mol nitric acid, with its dissolving, be mixed with and contain the solution that titanyl nitrate is 2 mol, acidity is that 3 mol controlled temperature are about 50 ℃, be heated to 100 ℃ of insulations 1 hour then, after the cooling, precipitation separation, and with after the less water washing precipitation, to precipitate again peptization and be distributed in the water, and be mixed with and contain TiO
210% (mass percentage concentration), pH2 coating.This coating is coated on the ceramic tile, after the drying, is placed under the sunlight after coating pigment dyestuff, after 2 hours, color disappears substantially.The precipitation that takes a morsel is measured with XRD, and it is a Detitanium-ore-type substantially, and part amorphous TiO is arranged
2Calculating its crystal median size with the Scherrer formula is about 4.8nm.
Embodiment 3
Vitriol oil oxygen titanium is added in the entry, with concentration furnishing 1.2 mol, the ammoniacal liquor of 6 mol is mixed adding under the ice condition with it again, temperature is controlled at below 40 ℃, when pH8 stops, with sedimentation and filtration, cleans SO
2- 4After, adding concentration is that the concentrated nitric acid of 23 mol dissolves it, temperature is controlled at below 65 ℃, again it is mixed with the titanyl nitrate solution of 3.5 mol after, acidity control is in 5 mol, be heated to 108 ℃ of insulations after 0.2 hour, the cooling cool to room temperature, suction filtration, and with after the less water washing, to precipitate again peptization and be distributed in the water, and be mixed with and contain TiO
2The coating of 30% (mass percent) pH=1 is coated in this coating on the porcelain plate, after the drying, coats organic color, is placed under the sunlight to shine after 1.5 hours, and color disappears substantially.The dry back of the precipitation that takes a morsel is measured with XRD, and powder is Detitanium-ore-type, a small amount of rutile-type substantially, and the part non-crystalline state is also arranged, and calculates with the Scherrer formula, about its about 3.8nm of average particle size.
This coating can be coated in glass, wall, ceramic tile, cement road or the metallic surface on both sides of the road, under the effect of UV-light, and degradation of organic substances, photochemical gas, sterilizing and anti-virus etc.
Claims (5)
1,3~10nm titanium dioxide TiO
2The preparation method of nanocrystalline photo-catalytic coating is characterized in that the titanyl nitrate control hydrolysis, generates the TiO of 3~10nm
2Nanocrystalline and a small amount of amorphous precipitation of reuniting, precipitation separation, and with after the little water washing, will precipitate again peptization and be distributed in the water is made and is contained TiO
20.1 the photo-catalytic coating of~31% mass percentage concentration; Control condition during the titanyl nitrate hydrolysis is:
(1) concentration of the titanyl nitrate aqueous solution is controlled at 0.3~4 mol scope;
(2) titanyl nitrate aqueous solution acidity control is in 0.1~6 mol scope;
(3) the ordinary-pressure hydrolysis temperature is 70~109 ℃, and the time is 0.1~2.5 hour.
2, by the described preparation method of claim 1, it is characterized in that described titanyl nitrate is that raw material makes with metatitanic acid or titanyl sulfate, the metatitanic acid vitriolization is made titanyl sulfate, perhaps directly with commercial sulfuric acid oxygen titanium and mineral alkali slowly mix stir the titanic Acid precipitation, the gained throw out is removed SO through washing
2- 4After, it makes titanyl nitrate with nitric acid dissolve, and its control condition is:
(1) mineral alkali is made the precipitation agent of titanyl sulfate, and PH is controlled between 2~8.5 during precipitation, and temperature is below 40 ℃;
(2) concentration of nitric acid of dissolving titanic Acid precipitation is 2~23 mol, and temperature should be controlled at below 68 ℃ during dissolving.
3, by claim 1 or 2 described preparation methods, it is characterized in that amorphous TiO
2Be whole TiO
21-10%.
4, by the described preparation method of claim 2, it is characterized in that used mineral alkali is sodium hydroxide, potassium hydroxide, yellow soda ash, salt of wormwood, sodium bicarbonate, saleratus, bicarbonate of ammonia or ammonia and ammoniacal liquor.
5, by claim 1 or 2 described preparation methods, it is nanocrystalline to it is characterized in that ordinary-pressure hydrolysis produces, and its crystal formation can be a brookite type, Detitanium-ore-type, rutile-type or the mixed crystal between them.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1315732C (en) * | 2005-10-14 | 2007-05-16 | 浙江大学 | Production of titanium dioxide optical catalyst sol |
CN100395188C (en) * | 2005-12-02 | 2008-06-18 | 北京宇极科技发展有限公司 | Method for preparing titanium oxide colloid and correlates thereof |
CN105820619A (en) * | 2016-04-18 | 2016-08-03 | 唐彩虹 | Synthesis method of high-compatibility photocatalyst |
CN106590083A (en) * | 2016-12-21 | 2017-04-26 | 重庆中鼎三正科技有限公司 | Preparation method of micro-optical titanium dioxide catalytic coating or device |
CN107459267A (en) * | 2017-06-27 | 2017-12-12 | 伦慧东 | The manufacture craft of photocatalyst film compound glass |
-
2004
- 2004-06-16 CN CN 200410013303 patent/CN1273546C/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1315732C (en) * | 2005-10-14 | 2007-05-16 | 浙江大学 | Production of titanium dioxide optical catalyst sol |
CN100395188C (en) * | 2005-12-02 | 2008-06-18 | 北京宇极科技发展有限公司 | Method for preparing titanium oxide colloid and correlates thereof |
CN105820619A (en) * | 2016-04-18 | 2016-08-03 | 唐彩虹 | Synthesis method of high-compatibility photocatalyst |
CN106590083A (en) * | 2016-12-21 | 2017-04-26 | 重庆中鼎三正科技有限公司 | Preparation method of micro-optical titanium dioxide catalytic coating or device |
CN107459267A (en) * | 2017-06-27 | 2017-12-12 | 伦慧东 | The manufacture craft of photocatalyst film compound glass |
CN107459267B (en) * | 2017-06-27 | 2019-09-17 | 伦慧东 | The manufacture craft of photocatalyst film compound glass |
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